shri vile parle kelavani mandal’s thus 4...

Shri Vile Parle Kelavani Mandal’s

SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

NATAKKAR RAM GANESH GADKARI MARG

VILE PARLE (WEST), MUMBAI-400056

CURRICULUM Shri Bhagubhai Mafatlal Polytechnic started 03 year’s Diploma courses and affiliated to the

Board of Technical Examinations, Maharashtra State, in 1963. Since 1969, academic freedom

was granted to the Polytechnic, which enabled it to evolve curriculum and examination scheme

and to introduce inplant training, resulting into industry institute interaction. Thus 4 years’

semester sandwich pattern came in existence. Since1978-79 academic freedom was extended to

all the full-time diploma courses. In 1989-90, full autonomy was granted to all seven full-time

diploma Progarmmes. As a further development to the above, the Multi-Point Entry and

Credit System (MPE&CS) was initiated in 1981 on the progressive basis. In the scheme students

can regulate their pace of studies within the rules prescribed. From 1993-94, full academic

autonomy was extended to all the courses.

(Full Time 03 Year Sandwich Pattern)

Diploma Programme in PLASTICS ENGINEERING (Aided)

The programme is designed to fulfill the needs of the Plastics Industry. The emphasis of the

course is on polymer education, deals with plastics raw materials, manufacturing, processing,

testing, fabrication, product design, Auto CAD & mould design, plastic moulding machines &

their construction, working, maintenance and servicing. Also basics and advanced hydraulics,

pneumatics & system controls. The student will also learn basics of computers, CAD, CAM,

CIM etc

PRACTICAL TRAINING:

The students receive institutional training for the first five semesters. In the 6th semester they are

given inplant/field training.

In the concluding 6th semester, they again receive inplant/field training. This scheme enables the

students to be exposed to industry during the training, which is provided for practice orientation

and improves their prospects for employment.

Vision and Mission of the Plastics Department:

Vision:-

To Empower the students through knowledge to produce

high quality Professionals and Entrepreneur.

Mission:-

To provide abundant knowledge through strong Industry-Institute

interaction.

To continuously improve the teaching-learning process through need based

Curriculum and infrastructure.

To create competent professionals and Entrepreneurs,

Contributing towards sustainable growth of plastics and

allied engineering.

To inculcate environmental awareness, soft skills and promote

lifelong learning.

PEO’s (Program Educational Objectives):

PEO-1- Our student will demonstrate the ability to occupy key position in the

industry in the areas of Engineering and design.

PEO-2- Our student will demonstrate ability to continue professional development

through higher education.

PEO-3-Our student will demonstrate the entrepreneurship abilities.

PEO-4- Our student will communicate and work effectively with others having

different role or responsibilities.

PEO-5- Our student will demonstrate sensitivity in practicing the profession in an

ethical values and society.

Programme Outcomes (POs) At the end of programme, a student will be able to

PO1- Apply knowledge of basic mathematics, Science and Engineering to solve

engineering problems.

PO2 - Apply knowledge of Plastics Processing, plastics product design,polymer science and

Plastics testing, mould design to solve plastics engineering and applied engineering problems.

PO3- Plan and perform experiments and practices and use these results to solve engineering

problems.

PO4- Apply Plastics technology and its tools with an understanding of the limitations.

PO5- Demonstrate knowledge to assess social, health, safety, legal and cultural issues and

consequent responsibilities relevant to Plastics engineering practice.

PO6- Understand the impact of the engineering solutions in social and environmental

contexts and demonstrate the knowledge and need for sustainable development.

PO7- Apply ethical principles and commit to professional ethics and responsibilities and

norms of the engineering practice.

PO8- Function effectively as an individual and as member or leader in diverse/Multidisciplinary

team.

PO9- Communicate effectively.

PO10- Recognise need for plastics engineering and have the preparation and ability

to engage in independent and life long learning in the context of technological changes.

Programme Specific Outcomes:-

PSO1:- Pass out student will work as an Engineer in Plastic product design, mould design,

Plastics Processing Plants, plastics testing, polymer manufacturing industries and related

Industries.

PSO2 - Pass out student will be able to setup Plastics industry as an Entrepreneur.

Shri Vile Parle Kelavani Mandal


TEACHING AND EXAMINATION SCHEME

PROGRAMME: PLASTIC ENGINEERING W.E.F Batch Admitted JUNE 2016

SEMESTER :- I

Sr. No. Course Name and Code

Scheme of Instructions

and Periods per week

Theory Paper

duration and

marks

Scheme Of Examination Gr Scheme

L/P/Cr

L P D T Cr Hrs Mks SSL Paper T/W PR OR Total

1.1 Applied Mechanics

(160001)

3 2 - 1 6 03 100 30 70 50@ - - 150 C* 336

1.2 Basic Mathematics

(160002)

3 - - 1 4 03 100 30 70 25@ - - 125 B* 314

1.3 Applied Chemistry

(160007)

4 2 - - 6 03 100 30 70 25@ 50 ** - 175 B* 426

1.4 Communication skills

(160003)

3 - - 1 4 03 100 30 70 25@ - - 125 B* 314

1.5 Engineering Drawing

(160004)

2 - 4 - 6 - - - - 50@ 50** 100 C* 246

1.6 Workshop Practice

(160010)

1 4 - - 5 - - - - 50@ - - 50 C* 145

1.7 Environment Studies

(160009)

2 2 50@ 50 B* 202

TOTAL 18 8 4 3 33 No of Papers-4 120 280 275 100 -- 775

TOTAL PERIODS = 33 TOTAL MARKS = 775

*Compulsory, ** Assessed by Internal Examiner and External Examiner jointly, @ Assessed by Internal Examiner only- ,# Award Winning Course, L-Lecture Period ,P-Practical period ,D-Drawing Practise ,T-Tutorial, Cr-Credit ,SSL-Sessional, TW-Term Work, PR- Practical , OR Oral ,,Gr- Group ,B-Basic ,C-Core ,A-Application ,M-Management.

HOD PRINCIPAL

1.COURSE DETAILS:

Programme :ALL Semester: I

Course: Applied Mechanics Group: C*

Course Code:160001 Duration:16 Weeks

1. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory

Hours /

Week

Practical

Hours /

Week

Paper Theory Marks

Sessional Marks

Term Work

Practical

/Orals

Total

Tutorial Hours. N/P Marks

3 2 1 6 3 1 100 70 30 50@ - 150

2. COURSE OBJECTIVES:

Applied Mechanics course is the study of Forces and their effect on moving or stationary bodies.

Also the concept of Mechanics will be useful to understand the further Courses materials &

structures, analysis of structures and design.

3. COURSE OUTCOMES:

C205.1 Define and classify force & its systems.

C205.2 State and explain principles of resultant and equilibrium of system of

forces.

C205.3 Calculate resultant and equilibrium of system of forces analytically and

graphically.

C205.4 Understand, apply and calculate force systems to friction, centroid and

for beam reactions.

C205.5 Define understand apply and calculate laws of simple lifting machines.

SECTION I

4. CONTENT

Chapter Topics Periods Marks

1

Introduction to Mechanics, 3 6

1.1 Mechanics definition, classification, Statics & Dynamics,

Kinematics, kinetics

1.2 Fundamental units of measurements (FPS, MKS, SI), derived

Units, Conversion of units, Scalars & Vectors with examples

1.3 Definition of particle, body and rigid body, mass & weight.

2

Resolution Of Forces 5 10

2.1 Concept of force, definition, unit, graphical representation

of force

2.2 Concept of system of forces, non-coplanar, coplanar, concurrent,

Parallel, non-concurrent & non-parallel forces.

2.3 Resolution of a force into two components along any directions.

2.4 Resolution of a force into two components at right angles to

each Other by analytical method.

(Applications levers, chain & links, connected bodies like trains

etc.)

3

Composition Of Forces 5 10

3.1 Composition, Resultant of force

3.2 Law of parallelogram of forces,

3.3 Moment of force, couples lever arm,

3.4 Varignon’s theorem

3.5 Resultant of coplanar concurrent, parallel, and non-concurrent,

non-parallel forces

(Applications in shafts, crane, joints of trusses, etc )

4

Equilibrium 6 13

4.1 Definition of equilibrant., relation between Resultant and

Equilibrant, Conditions of Equilibrium, Types of Equilibrium

Stable, Unstable and Neutral equilibrium

4.2 Equilibrium of coplanar concurrent forces, Lami’s theorem.

4.3 Equilibrium of coplanar parallel forces & coplanar Non-

concurrent Forces.

4.4Analytical conditions of equilibrium for coplanar concurrent

&Non-concurrent Forces.

(Applications of crane stability, link mechanisms, inclined plane,

wedges, anchor blocks for water pipe lines, balance, levers, pulley &

pulley blocks)

(d) Extension of springs.

(e) Compression of springs

5

Beam Reactions 5 11

5.1 Types of supports (constraints), simple, roller, hinged & fixed.

5.2 Types of Beams, simply supported, hinged & roller supported,

Cantilever, Over hang Beams.

5.3 Types of Loads, Point(Concentrated) Load, Uniformly

Distributed Load(U D L)

5.4 Problems on above combination of loads

(Application like bearings of shafts, guy, rocker and roller supports

of railway bridges, )

Total

24 50

SECTION II

6

Friction 6 13

6.1 Definition, types of friction, Static friction, dynamic friction

6.2 Fundamental laws of static friction. Coefficient of friction.

6.3 Cone of friction. Angle of friction, Angle of repose, Rolling

6.4 friction

6.5 Study of inclined plane, wedge and block system, ladder

friction.

(Application in clutches, Brakes, Dynamometers, journals, Belt &

Rope drives, stator & Rotor in electric motors, Bearings.)

7

Centre of gravity 6 12

7.1 Center of gravity of solids, centroid of plane laminas, definition,

7.2 Concept of parallel forces applied to find c,g, and centroid ,

centroid/c.g. axes of a body/lamina, c.g. / centroid of basic regular

Shapes.

7.3 Applications like floating bodies, dams & retaining wall

sections

beams columns sections (rolled steel), simple and built up sections

(Applications like floating bodies, dams, retaining walls, columns

etc.)

8

Simple Lifting Machines (Application topic) 6 13

8.1 Definition: Mechanical Advantage, Velocity Ratio,

Efficiency, Relation between them, Friction in machine in

terms of load & Effort.

8.2 Law of Machine, Maximum M.A., Maximum efficiency,

Condition for reversibility of a machine

8.3 Study of machines – Simple and Differential Axle & Wheel

Weston differential pulley block, Simple screw jack, Worm &

Worm Wheel, Single & Double purchase crab winch, system Of

pulleys.

9

Graphics Statics 6 12

9.1 Space diagram, Bows notation.

9.2 Law of Triangle of forces, Polygon of forces, Force/Vector

diagram

9.3 Resultant and equilibrium of concurrent forces

9.4 Polar diagram, Funicular polygon

9.5 Resultant and equilibrium of non –concurrent and non- parallel

forces

1.Applications in finding reactions of beams Stresses in simple

frames

TOTAL 24 50

6. PRACTICALS:

Term Work consists of Journal containing minimum 10 experiments performed of the following in the Laboratory.

1. Extension / Compression of the spring.

2. Bell Crank Lever.

3. Two/Three Sheave Pulley Block.

4. Simple Screw Jack.

5. Single / Double Purchase Crab Winch

6. Differential Axle & Wheel.

7. Centroid Of Plane Lamina

8. Sheer Leg & Derrick Crane.

9. Resultant of Non Concurrent Non Parallel Forces.

10. Friction : (a) Friction between wooden surfaces (b)Friction between wooden surfaces

and glass, metal surfaces

11. Jib crane

12. Graphic Statics

13.Moment Of Inertia of Fly Wheel.

7. Reference Books:

Sr.

No.

Author Title Edition Year of

Publicatio

n

Publishers & Address

1. Dhade &

Jamdar

Applied Mechanics 2nd 2002 Central Techno Publishers, Nagpur

2. R. S. Khurmi Applied Mechanics 19th 2001 S. Chand & Company Ram Nagar,

New Delhi – 110 055.

3. A. K. Tayal Engineering

Mechanics Statics &

Dynamics

9th 1998 Umesh Publications

4 Sunil M Deo Applied Mechanics Vol. I & II

7th 2004 Nirali / Pragati Publications Mumbai

5 M D Dayal Applied Mechanics 1st 2000 Nandu Publishers.

Chembur, Mumbai-71.

6 S S BHAVIKATTI Applied Mechanics Tata Mcgrew Hill

8. Question Paper Pattern:

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30

COURSE DETAILS:-

Program: ALL Semester: I

Duration: 16 weeks

Course: Basic Mathematics Code: 160002

Group: B* Compulsory


Scheme of instruction &

Periods Per Week Theory Paper

duration &

marks

Scheme of Examination Scheme

L/Pr/Cr

L P D T Cr Np Hrs Mks SSL Theory T/W PR OR Total

03 -- -- 1 04 01 03 100 30 70 25@ 125 314

3. COURSE OBJECTIVE:

Student will be able to understand

1. Concept of partial Fractions, Determinant, Matrices and Binomial Theorem

2. Concept of trigonometry and coordinate Geometry

3. Application of trigonometry

4. COURES OUTCOMES:

1 Apply the binomial theorem and partial fractions in various engineering topics

2 Solve Determinant and matrix based problems

3 Solve problems on trigonometry using the identities and concept of compound

angles, allied angles, multiple angles

4 Construct the equation of a straight line and circle in various form

5. DETAILED CONTENTS:

CHAPTER CONTENT HOURS MARKS

SECTION-I (ALGEBRA)

1 PARTIAL FRACTION 1.1 Definition of partial fraction, proper and

improper fractions 1.2 To resolve into partial fractions

- Linear Factors - Repeated Linear factors - Non repeated quadratic factors

04 10

2 DETERMINANT: 2.1 Definition and Explain of 2nd and 3rd order determinant

2.1 Cramer’s rule to solve equation in 2 and 3 unknowns.

2.2 Properties of determination and solving problems.

03 06

3 LOGARITM

3.1 Introduction & Definition

3.2 Laws Of Logarithm With Proof

3.3 Change of base

3.4 Numerical Problem

03 06

4 MATRICES :

4.1 definition of a matrix of order m x n and types of matrices

4.2 Addition, subtraction, scalar multiplication

between matrices

4.3 Transpose of a matrix

4.4 Minor cofactor of an element of a matrix,

adjoint of matrix and inverse of matrix by

adjoint method

4.5 Solution of simultaneous equation containing 2

and 3 unknowns by matrix inversion methods.

08 16

5

BINOMIAL THEOREM

5.1 Definition of combination

5.2 Expression

5.3 Middle term

5.4 Independent Term

5.5 Approximate Value

06 12

TOTAL

24 50

SECTION-II

6 TRIGONOMETRY

6.1 Trigonometric ration of allied compound and

sub-multiple angles.

6.2 Factorization and de-factorization formulae.

6.3 Inverse trigonometric functions, principle value

6.4 Properties of the triangle.

6.5 Solution of triangle.

12 26

7 CO-ORDINATE GEOMETRY

STRAIGHT LINE

7.1 Slope and intercept of straight line

7.2 Equation Of straight line

- Slope point form

- Slope intercept form

- Two point form

- Intercept form

- Normal orm

7.3 Intersection of two lines, angle, condition of

parallel and perpendicular lines

7.4 Length of perpendicular form a point on the line

Perpendicular distance between two parallel lines.

06 12

8 CIRCLE

8.1 Equation of Circle

- Centre radius form

- Diameter form

- intercept form

8.2 General Equation of circle

8.3 Tangent Line and Normal line

06 12

TOTAL 24 50

Implementation Strategy ( Planning ) :

Conducting Lecture as per the lesson plan and conducting tutorial in the same class room.

8. REFERENCE BOOKS:

Sr.

No.

Author Title Publishers & Address

1 Shri S.P.

Deshpande

Calculas for polytechnic Pune Vidyarthi Graha prakashan Pune-

30

2 Shri. B.M. Patel

Shri. J.M. Rawal

Applied Mathematics Nirali Prakashan Mumbai

3 Dr. B.S. Grewal Higher Engineering Mathematics Khanna Publisher, 2/B, Delhi-6

4 J.N.Wartikar

P.N.Wartikar

A text book of Applied

Mathematics

Pune Vidyarthi Graha prakashan Pune-

30

5 S.S.Sastry Introductory method of Numerical

analysis

Prentice Hall of india –New Delhi

6 M.K. Jain Numerical Method for Scientific

and engineering computation

Wiley estern

9. QUESTION PAPER PATTERN:

Que.

No.

Section I Section II Periodical Test


1 Any 6 out of 8

( 3 marks each)

18 Any 4 out of 5

(5 marks each)

16

2 Any 4 out of 6

( 4 marks each)

16 Any 1 out of 2

(6 marks each)

06

3 Any 2 out of 3

( 8 marks each)

16 Any 1 out of 2

(8 marks each)

08

4 Any 6 out of 8

(3 marks each)

18

5 Any 4 out of 6

(4 marks each)

16

6 Any 2out of 3

(3 marks each)

16

TOTAL 50 50 30

1.3 COURSE DETAILS:-


Duration: 16 weeks

Course: Applied Chemistry Code: 160007





duration &

marks


L/Pr/Cr


4 2 - 06 01 03 100 30 70 25@ 50** --- 175 426

3 COURSE OBJECTIVE: To introduced the Fundamental Principles of Chemistry like structure of atom,

electrochemistry which will enable the students to understand the other core technological

subject of different branches.

To Impart Knowledge of different engineering materials – metallic and Non Metallic

To understand the significance of Hardness of water, pH, Corrosion and Lubrication.

4. COURES OUTCOMES:

1 Predict the chemical and Physical Properties of Different element and write the

correct names and formulae of different compounds

2 Understand the concept of Electrochemical processes

3 Select appropriate material-metallic, non metallic, lubricants for different

engineering applications.

4 Identify the type of corrosion and select an appropriate method to reduce it.

5 Analyse water sample and predict its suitability for various processes

6 To develop skills of Measuring Volumes, concentration of solutions and

identify the dissolved solute in a given solution.



SECTION-I (ALGEBRA)

1 STRUCTURE OF ATOM : 1.1 Structure of atom- classical Model 1.2 Structure of atom –Modern picture 1.3 Bohr’s Theory and Quantum Numbers. 1.4 Rules for distribution of electrons in an atom 1.5 Electronics configuration of first twenty

elements, Nuclear stability and numerical problems based on its chemical bonding

12 20

2 ELECTROCHEMISTRY: 2.1 Arrhenius Theory ,Degree of Ionisation 2.2 Mechanism of Electrolysis 2.3 Faraday’s Law of electrolysis and numerical problem based on it. 2.4 Application Of Electrolysis. 2.5 cells and batteries- classification primary cell ( Daniel cell),Secondary cell (Lead acid Storage cell) 2.6 Solar cell –advantage, disadvantage.

10 16

3 METAL & ALLOYS:

3.1 Characteristic of metal 3.2 General Metallurgical Processes

3.3 Physical properties and application of some

commonly used metals such as Fe,Cu,Al,

Cr,Ni,Sn,Pb,Zn,Ag,and Si

3.4 Alloy –Preparation, Purpose classification,

composition, properties and application of Duralumin magnalium, monel metal,alnico,Gun metal,Brass,Bronze,Babbit metal and Ferrous alloys

10 14

TOTAL

32 50

SECTION –II

4 WATER AND PH

4.1 Physical and chemical characteristic of water

4.2 Hardness of water

4.3 Causes and types of Hardness

4.4 Disadvantages of hard water –(Domestic and

Industrial )

4.5 Degree of Hardness and numerical problem

based on it pH, concept of pH

4.6 Application of pH and numerical problem based

on it.

08 12

5 CORROSION AND PROTECTIVE COATINGS

CORROSION :

-Types of corrosion

- Mechanism of corrosion

-factor affecting on corrosion

- Methods of Prevention of corrosion

-Methods of applying metal coatings.

PROTECTIVE COATINGS

Paints – characteristics of good paints, constituents and

failure of paint film

Varnishes – Types, characteristic and constituents of

good varnish

10 16

6 LUBRICANTS :

Definition , Function of Lubricants , Theories of

Lubrication , classification and characteristic of

Lubricants, Selection of Lubricants for different

machines.

06 10

7. NON-METALLIC ENGINEERING MATERIALS

Polymers

Plastics- Definition ,types ,Properties and application

Rubber –Types ,Properties and applications

Vulcanisation of Rubber.

Thermal Insulators- Definition, characteristic,Prepration,

Properties and application of thermocole and glass wool.

08 12

TOTAL 32 50

6. PRACTICE:-

List of Experiments

01-04 : Techniques of determination of concentration of solutions :

Volumetric Analysis

a) Neutralization titration

Titration between strong Acid Strong base using Phenolphthalein as indicator – 2set

b) Redox Titration

i) Titration between KMno4 and FeSO4 ,7H2O

ii) Titration between KMno4 and FeSO4 and Mohr’s salt [FeSO4.(NH4)2(SO4.6H2O) 05-06:- Determination of

a) Hardness of water

i) EDTA method

ii) Soap Solution Method

b) Chloride content in water 07 :- Determination of pH of different solutions.

08-13 :- Qualitative Analysis of Five solutions containing One Basic and one Acidic Radical Listed below:

a) Basic Radicals: Pb+2, Cu+2, Al+3, Fe+2, Fe+3, Ca+2, Ba+2, Mg+2, K+, Na+.

b) Acidic Radicals: Cl–, SO4–2, CO3

–2, NO3–.

1) Determination of Viscosity Index Of a Lubricant

2) Determination of Flash Point of a Lubricants using

a) Abel’s Flash Point apparatus

b) Pensky Marten’s Flash Point Apparatus

3) To prepare chart showing application of metal like Fe,Cu,Al,Cr,Ni,Sn,Pb.

7. IMPLEMENTATION STRATEGY (PLANNING)

Theory topics and practice experiments should be done simultaneously, this will help the

student to understand the topics.

Question papers for the periodical test should cover the topics which have been taught to

test the understanding

8. REFERENCE BOOKS:

Sr.

No.


1. Jain and Jain Chemistry of Engineering

Materials

Dhanpat Rai Publishing Co. New

Delhi

2. Narkhede &

Thatte Engineering Chemistry

3.

Mahadeokar &

Dr. U. P.

Kodgire

Chemistry for Engineering

students Everest Publishing House, Pune

4. B.S. Godbole Applied Chemistry Satya Prakashan, New Delhi

5. Rao A.A. Polytechnic Chemistry New Age International 2007

6. Shete S.D. Applied Chemistry S. Chand & Company

7. Dara S.S. A Text Book of Engineering

Chemistry

S. Chand & Company, New Delhi-

2008


Que.

No.



1 Any 6 out of 8

( 3 marks each)

18 Any 4 out of 5

(5 marks each)

16

2 Any 4 out of 6

( 4 marks each)

16 Any 1 out of 2

(6 marks each)

06

3 Any 2 out of 3

( 8 marks each)

16 Any 1 out of 2

(8 marks each)

08

4 Any 6 out of 8

(3 marks each)

18

5 Any 4 out of 6

(4 marks each)

16

6 Any 2out of 3

(3 marks each)

16

TOTAL 50 50 30



Duration: 16 weeks

Course: Communication Skill Code: 160003





duration &

marks


L/Pr/Cr


03 1 04 01 03 100 30 70 25@ 125 314


Language remains a potential communicative medium of expressing ideas and

concepts moods, feelings and attitudes. English is a means not only of

international commerce; but also it is our window to the world. Properly used,

new technology will help students to acquire the communication skills they need

to survive in a complex, highly technological knowledge-based economy world. .

Proficiency in English is a mandatory requirement of any professional workplace

in the global job market. However, the ability to communicate effectively in

English does not come easily to many people. Here arises the need to learn

communication skills which will enable the students to enhance their

comprehension, writing and oral skills in English.

4. COURES OUTCOMES:

1 Use the Various grammatical Structure which will enhance their oral and

written communication.

2 Apply all four Language skills (LSRW) Listening, Speaking, Reading writing

in real life situations.

3 Demonstrate the proficiency in spoken English by using language lab software

4 Prepare various types of reports, letters at organizational and personal level.



SECTION-I

1 Language

Language: Meaning & Nature Characteristics of

Language.

03 08

2 Development of Language skills - LSRW

2.1 Productive Skills: Speaking and Writing

Types of Speaking and Writing , Techniques to

improve Speaking and Writing

2.2 Receptive Skills : Listening and Reading

Types of Listening and Reading ,Techniques of

Listening and Reading

05 12

3 Communication 3.1 Nature and Definition of communication

3.2 Process/ cycle of communication

3.3 Characteristics of communication

04 07

4 Organizational Networks of Communication 4.1 Importance communication in Organization

4.2 Horizontal communication

4.3 Vertical – downward & upward

4.4 Grapevine communication

4.5 Diagonal Communication

04 08

5 Grammar

5.1 Tense & its Types

5.2 Parts of speech

5.3 Degree and Its types

04

07

6 Vocabulary Building 6.1 Word Formation Processes

Affixation : Prefix ,Suffix, clipping,

blending compounding , Backformation,

shortfoms, Acronyms

6.2 Antonyms and synonyms

6.3 Homonyms, homophones , homographs,

6.4 Heteronyms and capitonyms

04 08

TOTAL 24 50

SECTION -II

1 Language Lab & Spoken English 1.1 Listening & Speaking activities

1.2 English sound system (RP)

Vowels & Diphthongs(RP),Consonants(RP)

1.2 Word Accent, stress a Rhythm and Intonation

06 08

2 Letter writing 2.1 Importance of business communication

2.2 7 Cs of letter writing ,

2.3 Layouts: semi –block ,Full block,

2.4 letter of Enquiry, Order ,

2.5 Job application with Resume

04 12

3 Reading comprehension Reading Unseen passages for comprehension

04 12

4 Report Writing 4.1 Definition and Features of Report 4.2 Formats of reports 4.3 Types of Report : Accident, Investigation etc.

05 12

5 Essay writing 5.1 Definition of essay 5.2 Types of essay :Descriptive , Narrative , Imaginary , Critical, etc

05 10

TOTAL 24 50

Reference Books:

Name of book Author Publication Aspects of language Teaching Rekha Aslam Northern Book Centre ,New Delhi 1992

Business Communication Lesikar and Petic Tata McGraw Hill Publication New Delhi . 1995

Communication Skills for Technical students

-------

Orient Longman New Delhi .

Business Communication Dr. Urmila Rai Himalaya Publication, Mumbai .

List of Assignments

1. Explain the meaning and nature of Language.

2. Speaking Activity: Each student has to speak on given topic (#)

3. Find out any twenty difficult words from the English newspaper and understand

their meaning by using dictionary and use it in your own sentences.

4. Write five examples of each sub type of Tense ( Present , Past and Future )

5. Write the phonetic transcription of given words by using dictionary. (#)

6. Listen the recorded CD’s on particular topic, and try to imitate the pronunciation by

following intonation and rhythm. (#)

7. Listen and mark the primary, secondary accent for following words. (#)

8. Write a report on given topic in proper format.

9. Write a job application with your own resume.

10. Explain the Various formats of letter writing and give examples of each.

11. Write an essay on the given topic.

Note:

1. Each student has to attempt given ten assignments.

2. # marked are compulsory assignments/Practical to be completed in

Classroom / Language Lab.

QUESTION PAPER PATTERN



1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30


Program: DE/IE/PE/EE/CH Semester: I

Duration: 16 weeks

Course: Engineering Drawing Code: 160004

Group: C* Compulsory


Scheme of instruction

&

Periods Per Week

Theory Paper

duration &

marks


L/Pr/Cr

L P D T Cr Np Hrs Mks SSL Theory T/W PR PRACT Total

02 04 06 -- -- -- 50@ 50** 100 246



SECTION-I

01 Introduction : 1.1 Importance of Engineering Drawing for the study of technical courses 1.2 Drawing instruments, types of lines and dimensioning (lettering and numbering for term work or assignment) 1.3 Concept of principle planes and quadrants 1.4 I and III angle method of projections

02

02 2.0 Orthographic Views : 2.1 Projections of various objects having flat and curved surfaces using 1st and 3rd angle projection method. 2.2 Conversion of pictorial views in to non-sectional orthographic views. The objects may have slots, holes cavities etc. 2.3 Conversion of Pictorial View in Sectional Orthographic: 2.4 Conversion of pictorial views with cutting plane into sectional orthographic projection (full section only)

06

03 3.0 Engineering Curves: 3.1 Ellipse: Oblong, arcs of circle and concentric circle method. 3.2 Parabola: Eccentricity and rectangular methods.

3.3 Hyperbola : Eccentricity and rectangular methods.

04

04 4.0 Projection of Planes : 4.1 Projection of planes – regular polygons and circle. inclined to one reference plane.

04

Total 16

SECTION -II

05 5.0 Isometric Views and Projections: 5.1 Isometric Views and Projections of linear and curvilinear Features.

06

06 6.0 Thread Profiles and Screw Fasteners : 6.1 Different profiles of threads 6.2 Conventional representations of left hand – right hand threads, single and multi start square threads, external and internal threads. 1. Different types of nuts. 2. Different types of bolts. 3. Lock nuts (Castle, slotted nut, simond’s nut etc) use of plane and spring washers.

04

07 7.0 Projections of Solids : 7.1 Projection of solids like prisms, pyramids, cylinders and cones with axis inclined to one reference plane.

06

TOTAL 16

7. Practice:

1. A2 size sheet to be drawn containing four problems on letter lines and dimensioning

Techniques.

2. One sheet with non sectional orthographic views for the objects with curvilinear features.

3. One sheet with sectional orthographic views four problems on sheet.( full section plane)

4. Home Assignments: One sheet containing two problems non sectional & two problems

Sectional orthographic.

5. One sheet with four problems on Ellipse Parabola and Hyperbola

6. One sheet with four problems on Projection of planes

7. Home Assignments: Four problems in sketchbook on curves &Projection of planes.

8. One sheet with four problems on Isometric view having linear and curvilinear features.

9. Home Assignments: One sheet containing four problems on Isometric view.

10.One sheet with Problems on various screw fasteners to besketched by free hand.

11. One sheet with four problems on Projection of solids

12. Home Assignments: Four problems in sketchbook on projection of solids.

8.0 IMPLEMENTATION STRATEGY (PLANNING) :

In depth study and understanding of the subject will be implemented by adoption of the following

strategy:

i) Theory Teaching Plan

ii) Term Work Plan for practical giving problems to draw in the class.

iii) Home assignment to practice at home

iv) Conduct of two periodical test

v)Use of OHP models and charge during theory class and practical periods

8. REFERENCE BOOKS:

Sr.

No.


Publication Publishers & Address

1 N.D. Bhatt

and Panchal

Geometrical &

Machine Drawing

14th 2000 Rupalee Publication

opposite Amul Dairy –

mumbai

2 R.K.Dhawan Engineering Drawing 2nd 2001 S.chand &co.

Ltd.Ram Nagar New Delhi-

110055

3 M.L.Dabhade Engineering Graphics 4th. 1995 Mrs.

V.A.Velhankar,1030,Model

colony-B 12, Akash Ganga

Pune -411016

4 N.H. Dubey Engineering Drawing 2nd 2001 S.Chand & Co.Ltd. Ram

Nagar


Program: ALL Semester: I &II

Duration: 16 weeks

Course: Workshop Practice Code: 160010





duration &

marks


L/Pr/Cr


01 04 05 - - - - - 50@ 50 145


The students will be able to:

1. Know safety precautions while working on various machines.

2. Understand, select and use of various tools and equipments in fitting, carpentry, welding

and plumbing.

3. Read and interpret job drawing

4. Operate, control different machines and equipments.

5. Inspect the job for specified dimensions

6. Produce jobs as per specified dimensions.

4. COURES OUTCOMES:

1 Identify various Marking, Measuring, holding, striking and cutting tools &

equipments

2 Explain Various manufacturing processes for industrial products

3 Use Various workshop equipments and tool for different workshop jobs

4 Recall safety practice while working in industry.



SECTION-I

1 CARPENTRY SHOP

1.1 Introduction 1.2 Various types of woods. 1.3 Different types of Tools, Machine & Accessories

04

2 PLUMBING 2.1 Introduction. 2.2 Various marking, measuring, cutting, holding and striking tools. 2.3Different G.I pipes and PVC pipes flexible pipes 2.4G.I .Pipes and PVC pipes fittings and accessories. 2.5 Adhesive solvent chemical reaction

04

3 FITTING SHOP 3.1 Introduction to welding, soldering, branzing. 3.2 Various Marking, Measuring Cutting, Holding

and striking tools 3.3 Different Fitting operation like chipping,

Filling, Right angle, Drilling, Tapping

3.4 Working principle of Drilling machine, Tapping

dies and its use.

3.5 Safety Precaution and safety Equipments.

04

4 WELDING SHOP

4.1 Introduction to welding, soldering, brazing.

4.2. Types of welding joints, gas welding & gas

cutting

4.3. Safety precaution in welding, safety

equipments and its used in welding process

04

TOTAL 16

Practical:

Sr. No. Details of Practical Contents

1 CARPENTRY & PATTERN MAKING SHOP (Group of TWO Students) 1. Demonstration of different Wood Working Tools / Machines. 2. Demonstration of different Wood Working Processes, like Planning, Marking,

Chiseling, Grooving, etc.

3. One Carpentry and one Pattern Making job for group of students.

2 FITTING SHOP (Group of TWO Students)

1. Demonstration of different Fitting Tools and Drilling Machines and Power Tools.

2. Demonstration of different operations like Chipping, Filing, Drilling, Tapping, Cutting etc.

3. Two job for a group of student involving practice of Chipping, Filing, Drilling, Tapping, Cutting and sawing operations.

3 PLUMBING SHOP

1. Demonstration of different plumbing tools 2. Demonstration of different operations in plumbing, observing

different pipe joints and pipe accessories. Different samples of PVC pipes and PVC pipe fittings.

3. Demonstration of Pipe threading using standard die sets. 4 WELDING SHOP 1. Demonstration of soldering and brazing processes. 2. Assignment on welding including Gas welding processes

NOTE: 1] The instructor shall give demonstration to the students by preparing a specimen job as per the job drawing. 2] The workshop diary/journal shall be maintained by each student duly signed by instructor of respective shop 3] Journal should contain

a. Sketches of different tools used in workshop with practical applications. b. Materials used for different job with their properties, advantages,

disadvantages and applications. c. Job/Part Drawings.

4] Journal should be certified by the lecturer in charge.

Reference Books:

Name of book Author Publication Workshop Technology S.K. hajara

chaudhary Media Promoters and Publication-New Delhi

Workshop Technology B.S. Raghuwanshi Dhanpat rai & Sons- New Delhi

Production Technology R.K.Jain Khanna Publisher- New Delhi


Program: ALL Semester: I/II

Duration: 16 weeks

Course: Environmental Studies Code: 160009





duration &

marks


L/Pr/Cr


2 02 50@ 50 202


To impart knowledge about renewable and non-renewable natural resources.

To understand and appreciate the concept of ecosystems, biodiversity and conservation.

To increase the awareness regarding environmental pollution, climate change, water

conservation and environmental legislations.

4. COURES OUTCOMES:

1 Identify and classify different natural resources and use them prudently

2 Recognize and categorize the different ecosystem

3 Discuss and estimate the importance of biodiversity and its conversion

4 Judge the type of pollution, identify the pollutant and propose and design

methods to reduce the same

6 Use the information regarding environmental legislation to improve upon their

surrounding for the betterment of the community.



SECTION-I

1 1.0 The Multidisciplinary nature of environmental

studies:

1.1 Definition, scope and importance

Need for public awareness

03

2 2.0 Natural Resources:

2.1) Renewable and non-renewable resources:

Natural resources and associated problems

Forest resources: Use and over-exploitation,

deforestation,. Timber extraction, mining, dams and

their effects on forest and tribal people.

Water resources: Use and over-utilization of surface

and ground water, floods, drought, conflicts over water,

dams-benefits and problems.

Mineral resources: Use and exploitation,

environmental effects of extracting and using mineral

resources.

Food resources: World food problems, changes caused

by agriculture and overgrazing, effects of modern

agriculture, fertilizer-pesticide problems, water logging,

salinity.

Land resources: Land as a resource, land degradation,

man induced landslides, soil erosion and desertification.

2.2) Energy Crisis:

Energy resources : Renewable Energy Resources – Biogas, Solar energy,

Wind energy, Energy from falling water, Energy from

wastes and tidal energy.

Non-Renewable Energy Resources – Coal, Oil,

Natural gas

Issue of economic viability and ability to meet demands.

Inequitable use of energy in urban and rural areas.

10

3 ECOSYSTEM

Concept of ecosystem

Major ecosystem in the world

03

TOTAL 16

SECTION -II

4 4.0 Biodiversity and its conservation:

4.1 Concepts

4.2 Threats to biodiversity

4.3 Value and conservation of biodiversity

03

5 5.0 Environmental Pollution:

5.1 Definition Cause, effects and control measures

of

Air pollution

Water pollution

Soil pollution

Noise pollution

Nuclear hazards

5.2 Types of wastes – generation, characteristics,

treatment and disposal of:

Solid waste

e- waste

Biomedical waste

06

6 6.0 Social Issues and the Environment :

6.1 From Unsustainable to Sustainable

development

6.2 Water conservation, rain water harvesting,

watershed management

6.3 Environmental ethics: Issues and possible

solutions like Carbon Credit.

6.4 Climate change, global warming, acid rain,

ozone layer depletion, nuclear accidents and

holocaust.

6.5 Environment legislations-

Legal aspects related to environment

Brief description of various acts involving

air, water and forests.

ISO-14000

Issues involved in enforcement of

environmental legislation

07

TOTAL 32

5. PRACTICE:

Term work:

• Visit to a local area to document environmental assets river/ forest/ grassland/ hill/

mountain

• Visit to a local polluted site- Urban/ Rural/ Industrial/ Agricultural

• Study of common plants, insects, birds.

• Study of simple ecosystems- pond, river, hill slopes, etc.

• Group discussions, film shows, debates, case studies, expert lectures on the different

topics of the curriculum.

6. IMPLEMENTATION STRATEGY (PLANNING):

Theory topics and practice experiments should be done simultaneously. This will

help the students to understand the topics.

7. REFERENCE:

Sr.

No.


1. Erach Bharucha Text book of

Environmental studies UGC Press

2. Rajagopalan Environmental studies Oxford University Press

3. Anandita Basak Environmental studies Drling Kindersley(India)Pvt. Ltd

Pearson

4. D.D. Mishra Fundamental concepts in

Environmental studies S. Chand & Co. Ltd.

5. Jain and Jain Role of Tech. in

Environment and Health

Dhanpat Rai Publishing Co. New

Delhi

Sr. No. Course Name & Code

Scheme of Instructions


Theory Paper

duration and

marks

Scheme Of Examination Gr Scheme

L/P/Cr


2.1 Machine Drawing & AutoCAD

(160501)

2 2 2 - 6 - - - - 50@ 50 ** - 100 C* 246

2.2 Development of life Skill

(160006)2 - - 1 3 - - - - 50@ - 50** 100 B* 213

2.3 Applied Physics

(160005)4 2 - - 6 03 100 30 70 25@ 50 ** - 175 B* 426

2.4 Material Science

(160502)

2 2 - - 4 03 100 30 70 25@ -- 25** 150 C* 224

2.5 Engineering Mathematics

(160008)3 - - 1 4 03 100 30 70 25@ - - 125 B* 314

2.6 Polymer Chemistry

(160503)

3 2 - - 5 03 100 30 70 25@ 50 ** - 175 C* 325

2.7 Organic & Physical Chemistry

(160604)3 2 - - 5 03 100 30 70 25@ 50 ** - 175 C* 325

TOTAL 19 10 2 2 33 No of Papers-5 150 350 225 200 75 1000





PROGRAMME: PLASTIC ENGINEERING SEMESTER:II W.E.F Batch Admitted JUNE 2016


HOD PRINCIPAL


Program: Plastics Engineering Semester: II

Duration: 16 weeks

Course: Machine Drawing & Auto CAD Code: 160501





duration &

marks


L/Pr/Cr


02 02 02 06 50@ 50** 100 246


1. To Explain different types of assemblies used in machines.

2. To provide basic understanding of solids intersections.

3. Study of various assemblies (sub assemblies) all details drawing of machine parts of assembly

such as joints, bearing,jig,and fixtures, machine vice, screw jack tool post etc.

4. To study welded joints.

4. COURES OUTCOMES:

1 Describe welded joints along with its types. 2 understand design of screw jack 3 define utility of Auto Cad in designing define utility of Auto Cad in designing 4 Create part design using auto cad



SECTION-I

1 INTERPRETATION OF SURFACES OF

SOLIDS:

1.1 Intersections of surfaces of the solids with axis

perpendicular or parallel to reference plane

1.2 Intersection of two prisms

1.3 Intersection of two cylinders

1.4 Intersection of prism and cylinder

1.5 Intersection of pyramid and prism

1.6 Intersection of cone and cylinders.

04

2 JOINTS : 2.1. Cotter, cotter joints and knuckle joints. 2.2. Assembly and details of joints.

03

3 FRICTIONAL(BUSH) BEARING : 3.1 Solid Bearing 3.2 Bush Bearing 3.3 Plummer block 3.4 Pivot( Foot Step) bearing 3.5 assembly and details of bearings.

03

4 DETAILS AND ASSEMBLY OF MACHINE

PARTS:

4.1 Screw jack, vices tool post, simple tail stock.

02

5 WORKING DRAWING :

5.1 Weld symbol

5.2 Machining and surface finish symbol

5.3 Limits, fits and tolerances

5.4 Geometrical tolerances

5.5 Representation of the above symbols and tolerances

on part drawing.

04

TOTAL 16

SECTION -II

6 INTRODUCTION TO COMPUTER

PERIPHERARL:

6.1 General ideas, study of printers plotters, Digitizers,

mouse, joystick etc.

6.2 Introduction to AUTO CAD

6.3 Concept and terminology, introducing different

features, program operation, features, advance drafting.

03

7

INSTALLATION AND FILE MANAGEMENT :

7.1 Loading Auto CAD, different library files.

02

7.2 Familiarization with editing plotting ,configuring

7.3 Converting of graphics with computer aided

Instruction. Understanding the mathematical terms.

8

DRAWINGS COMMANDS

8.1 Basics drawing commands to draw primitives

Like line, point arc, circle etc.

8.2 Drawing commands like Plane, donut, hatch etc.

02

9 UTILITY COMMANDS

9.1Utility commands like end, save, status etc.

9.2 Edit & Inquiry commands-commands like copy,

moves, erase ,area,etc.

01

10 DISPLAY AND SETTING COMMANDS

10.1 Display commands like zoom, pan, view,

regeneration etc.

10.2 Setting command like grid,ortho, axis,etc.

01

11 LAYER AND SHAPE FILE:

11.1 Concept and use of layer command 11.2 Creation of shape file 11.3 Creating line type, creating font style etc.

01

12 DIMENSIONING OF SPECIAL FEATURES :

12.1 Different dimension type, dimensioning adding

tolerance, central radius, leader, status, dim variable.

12.2 study of hatch patterns.

12.3 Study of script and slide show.

02

13 THREE DIMENSIONAL DRAWING:

13.1 Commands point,hide,view,3D-View,elevation 3D-

Polyline,3D mesh.

13.2 UCS,UCSICON,Change property

13.3 TABSURF,REVSURF,EDGESURF,3DARRAY

13.4 3D Operation like,ADD,SUBSTRACT,etc.

04

TOTAL 16

5. LIST OF PRACTICALS:-

The students will draw the following sheets.

1 . A drawing sheet on four problems of Intersection of surfaces of solids.

- Home Assignment: A drawing sheet on four problems of Intersection of surfaces of solids.

- A drawing sheet on assembly/details of joints.

- A drawing sheet on assembly/details of bearings

Project- Chart and model making on above topics by individual or group.

- A drawing sheet on two problems of assembly/ details drawing of machine parts.

Home Assignment- A drawing sheet on two problems of assembly/details drawing of

machine parts.

- A drawing sheet on two problems of working drawing of detail/ assembly.

- To study the operation of different peripherals.

6 . To install AutoCAD, study of main execution file, Configuration file and

supporting file with main menu.

6.1 To study of basic drawing, utility, edit and enquiry commands.

6.2 To study display commands and drawing aid feature.

6.3 To study hatch pattern, line type, sketch, layer, dimension commands

6.4 To study customization of menu using macros.

6.5 To study 3D Command.

6.6 To draw an actually drafted design.

7 .IMPLEMENTATION STRATEGY

In depth study and understanding of the Course will be implemented by following strategy

1. Lesson plan

2. Use of charts, models, transparencies

3. Use of a devices

8. REFERENCE BOOKS:

Sr.

No.



1 N.D. Bhatt &

Panchal

Geometrical and

Machine Drawing

14th 2000 Rupalee publication opp.

Amul Dairy, court

Road,anand-388001

2 R.K. Dhawan Engineering Drawing 2nd 2001 S.Chand&co. Ltd., Ram

Nagar,new delhi –110055

3 R.K. Dhawan Machine Drawing 2nd 2001 S.Chand&co. Ltd., Ram

Nagar,new delhi –110055

4 M.L.Dabhade Engineering Graphics 4th 1995 Mrs.V.Avelhankar,1030,

Model colony,B-12,Akash

Ganga, Pune-411016


Program: ALL Semester: II

Duration: 16 weeks

Course: Development of Life Skills Code: 160006





duration &

marks


L/Pr/Cr


02 1 03 50@ 50** 100 213


Life skills include psycho-social competencies and interpersonal skills that help people make

informed decisions, solve problems, think critically and creatively, communicate

Effectively, build healthy relationships, empathize with others, and cope with others in a healthy

and productive manner. It enables us to translate knowledge, attitudes and values into actual

abilities. Children learn Life Skills from parents, teachers and significant others who act as their

role models. They gradually learn to use a particular skill effectively in diverse situation to cope

with challenges of life.

4. COURES OUTCOMES:

1 Face the challenges of the new millennium, ruled by globalisation and real life

difficulties of new era.

2 Apply various life skills, different spheres of professional life and to enhance

their ability to contribute as youth force.

3 Learn to make maximum use of time for more creative and constructive work

4 Understand the social responsibility and enhance their positive and healty

behaviours.



SECTION-I

1 Personality Development

1.1 Introduction,

1.2 Determinants of Personality- biological,

Psychological and socio- cultural factors.

1.3 Areas of Personality development,

1.4 self analysis,

02 07

2 Time Management 2.1 Introduction, 2.2 Time planning, How to plan time, 2.3 Time wasters, Time management 2.4 Time matrix etc.

02 06

3 Stress Management

3.1 Definition of stress,

3.2 Types of personality and stress,

3.3 Sources of stress

3.4 Stress Busters

3.5 Psychological reaction to stress

3.6 Yoga and stress control. etc

02 06

4 Problem Solving and Decision Making

Problem Solving 4.1Definition,

4.2 Steps in Problem Solving

4.3 Factors Influencing Problem Solving

Decision Making 4.4 Definition Process, Need Consequences,

4.5 Models of Decision Making

4.6 Goal Setting

03 07

5 Memory and Cognition

1.1 Basic concept of memory

1.2 Dual store Memory Model

1.3 Short term Memory

1.4 Working memory ,

1.5 Long term memory

02 07

6 Motivation

6.1 Introduction to Motivation

6.2 Self- Motivation ,

6.3 Theories of Motivation

02 07

7 Creativity and Innovation 7.1 Nature and Meaning of Creativity and

innovation

7.2 Barriers to Creativity and Innovation

7.3 Attitude & Aptitude

03 08

8 Conflict Management

8.1 Definition of Conflict

8.2 Sources of Conflict ,

8.3 Types of Conflict,

8.4 Conflict Resolution ,

8.5 Steps In Conflict Resolution

02 08

9 SWOT Analysis

9.1 Concept of SWOT

9.2 Scope of SWOT,

9.3 SWOT as decision making tool ,

9.4 How to go about SWOT

02 07

10 Health

10.1 Health management

10.2 Food , Exercise and Rest

10.3 Body Observation

10.4 Addictions

02

07

11 Group discussion & Interview techniques

11.1 Importance of Objective GD

11.2 Procedure for GD,

11.3 Evaluation criteria for GD.

11.4 Types of interviews

11.5 preparation for interviews

11.6 Some Do’s and Don’ts for interview

11.7 FAQ in interview

04 08

12 Body language

12.1 Importance of Body language

12.2 Eye contact , Gestures , Postures

12.3 Facial expressions, Dress/ appearance

02 07

13 Team Building

13.1 Definition of Team

13.2 Importance and necessity in working team

13.3 Team dynamics

13.4 Transforming groups into teams

02 07

14 Task Management

14.1 Definition of task

14.2 Task characteristics,

14.3 Task sponsor and task stakeholder

14.4 Planning the task

14.5 Task evaluation

02 06

Reference Books :

Name of book Author Publication

Life Skills Training for Positive

Behaviour

Nair. A. Radha krishnan,

Rajiv Gandhi National Institute of Youth Development, Tamil Nadu.

Personality Development,

Hurlock, B.

Elizabeth

Tata Mc Graw Hill Publishing Company Limited, New Delhi. 2007

Managing Time First Dr.R.L.Bhatia Wheeler Publishing 1994

Development of Generic skill - I

&

Development of life skills -II

K . Sudesh Nandu Publication ,Mumbai

2.3. COURSE DETAILS:-


Duration: 16 weeks

Course: Applied Physics Code: 160005





duration &

marks


L/Pr/Cr


04 02 06 01 03 100 30 70 25@ 50** 175 426


To understand the physical properties of engineering materials .

To understand the principles and laws of physics.

To understand the physical quantities and it’s relation with one another.

To develop laboratory skills of investigations for use in production and technology

4. COURES OUTCOMES:

After the successful completion of the course the student will be able to

1 Compute the various physical quantities with accuracy and precision

2 Recognize the use of physical properties of different materials.

3 Choose and classify materials for different engineering applications.

4 Calculate the errors and minimize it during experiments

5 Demonstrate the various physical phenomenon

6 List the material required to proceed work.



SECTION-I

1 1.1 Fundamental, Derived, supplementary SI units. Accuracy and precision in measurement .significant figures in measured quantities and estimation of error

06 04

2 PROPERTIES OF MATTER:

Elasticity, Surface tension, Viscosity

2.1. Elasticity: Deforming force, restoring

force, elastic and plastic body.

2.1.2 Stress and Strain with their types.

2.1.3 Elastic Limit, Hooke’s Law.

2.1.4 Moduli of elasticity

2.1.5 Stress- Strain diagram, behaviour of wire

under continuously increasing load.

2.1.6 Definitions of yield point, ultimate stress,

factor of safety.

2.1.7. Numerical on stress, strain, and young’s

modulus.

2.2 Surface Tension :

2.2.1: Molecular force, cohesive and Adhesive

force, molecular range, sphere of influence.

2.2.3 . Definitions of surface tension and its S.I.

Unit, angle of contact.

2.2.4. Capillary action with example, shape of

meniscus for water and mercury.

2.2.5.Relation between surface tension,

capillary rise and radius of capillary ( no

derivation )

2.2.6. Effect of Impurities and temperatures on

surface tension.

2.2.7 Numerical on relation between surface

tension, capillary rise and radius.

2.3 Viscosity:

2.3.1 Fluid friction, viscous force.

2.3.2 Definition of viscosity, velocity gradient.

2.3.3 Newton’s Law of viscosity, Definition,

coefficient of viscosity and its SI unit.

2.3.4 Streamline and turbulent flow with

example, critical velocity.

2.3.5 Experimental determination: Poiseuille’s

method for viscosity, Stoke’s method.

2.3.6 Variation of viscosity with temperature.

2.3.7 Reynolds number and its significance.

18 12

2.3.8 Stoke’s formula :Free fall of body

through viscous medium.( no derivation )

2.3.9. Numerical on coefficient of viscosity,

Reynolds’s number and stoke’s formula.

3 HEAT AND TEMPERATURE:

3.1 HEAT :

3.1.1. Conduction, Convection and radiation, good and

bad conductor of heat with examples.

3.1.2 Law of thermal conductivity, coefficient of thermal

conductivity and its SI unit.

3.1.3.Defination of linear aerial cubical expansion and

relation between them.(no derivation)

3.1.4. General Metallurgical processes.

3.2 TEMPERATURES :

3.2.1Boyle’s Law, Charle’s Law, Gay lussac’s Law.

3.2.2. Absolute Zero temperatures, Kelvin scale of

temperatures gas equation (statement only)

3.2.3 Effect of temperatures on physical parameter.

3.2.4 Temperature measurement: Optical pyrometer,

Thermoelectric thermometer.

08 06

4 SOUND,ULTRASONIC AND ACOUSTICS

4.1 Simple Harmonic Motion

4.1.1Uniform Circular motion, periodic motion,

vibration motion (definition with examples).

4.1.2 Simple Harmonic Motion (S.H.M) (definition)

4.1.3 Characteristics of S.H.M.

4.1.4 Amplitude , Frequency, Period of S.H.M.

4.1.5 General equations of ( S.H.M.) ( no

derivation)

4.1.6 Graphical representation of S.H.M. ( only

diagram ).

4.1.7 Phase of S.H.M. , Epoch or phase constant of

S.H.M. ( definition ).

4.1.8 Numericals on amplitude , frequency and

period of S.H.M.

4.2 Wave Motion

4.2.1Defination of Wave motion, amplitude, period,

frequency and wavelenghth.

4.2.2 Relation between velocity, frequency,and

wavelength.

4.2.3Equation of progressive wave ( no derivation ).

4.2.3 Longitudinal and transverse wave.

4.2.4 Definition and formation of stationary wave.

4.2.5 Definition of Node, Andtinode, Free

vibration, Forced vibration and Resonance.

4.2.6 Velocity of sound by resonance tube.

4.2.7 Frequency of A.C. Supply by Sonometer.

4.2.8Numericals on relation v = nλ and resonance.

18 10

4.3 Acoustics and Reverberation :

4.3.1Defination of Echo, Reverberation,

Reverberation time.

4.3.2 Sabine’s formula ( No derivation ).

4.3.3 Definition of Absorption coefficient, Open

window unit (OWU), Absorption coefficient in

terms of OWU.

4.3.4 Essential features for good acoustics or

Acoustical planning.

4.3.5 Production of ultrasonic , Properties ,

applications

4.3.6 Numerical problems on Sabine’s formula.

SECTION –II

5 OPTICS :

5.1Photoelectric effect:

5.1.1 Statement of photoelectric effect , Planck’s

hypotheses, Einstein’s equation.

5.1.2 Definition: Threshold wavelength , Threshold

frequency, Work function.

5.1.2 Study of experimental set up for study of

photoelectric effect, Study of factors on which

photoelectric effect depend on. Defination :

Stopping potential.

5.1.3 Characteristics of photoelectric effect.

5.1.4 Photocells : Photoemissive, photoconductive,

photovoltaic.

5.1.5 Engineering applications.

5.1.6 Numericals on energy of photon , work

function, Einstein’s equation.

5.2 Interference :

5.2.1 Interference of light, Interference pattern.

Constructive interference, Destructive

interference. Steady interference of light.

5.2.2 Conditions for steady interference pattern

5.2.3 Formation of thin film, Newton’s rings,

Newton’s rings setup, Explanation of

formation of Newton’s rings. Wavelength

of source of light (No derivation)

5.2.4 Optical flatness, Engineering Applications.

5.3 Diffraction : 5.3.1 Diffraction of light, Diffraction at a slit,

5.3.2 Diffraction Grating, Characteristics of grating

spectra.

5.4 Polarization :

5.4.1 Polarization of light, Defination : Plane of

15 10

polarization, plane of vibration

5.4.2 Explanation of polarization of light, Nicol

prism.

5.4.3 Optical activity and optically active substance,

List of optically active substances.

5.4.4 Dextro-rotatory or right handed substances,

Laevo-rotatory or left handed substances.

5.4.5 Defination: Optical rotation, Specific rotation.

5.4.6 Lorentz half shade polarimeter

5.4.7 Engineering applications of polarization.

5.4.8 Numericals on diffraction grating and specific

rotation.

6 ELECTRICITY AND MAGNETISM:

6.1 Coulomb’s law , Intensity and Potential :

6.1.1 Coulomb’s inverse square law for electric

charges, Electric fields, Intensity of electric field.

6.1.2 Electric line of forces, Properties of electric

line of forces.

6.1.3 Electric flux, Electric flux density, Relation

between flux density and Intensity of electric field.

6.1.4 Electric potential, Absolute electric potential.

6.1.5 Expression for the potential at a point due to a

point charge, Absolute potential at a point, Potential

of Earth.

Intensity of Electric field at a point, Potential

Numerical problems.

6.2 Capacotor : 6.2.1 Capasity of conductor, Defination:

Capacitance, Farad.

6.2.2 Capacitance of Spherical conductor, Principle

of capacitor ( condenser ).

6.2.3 Capacitors in series and parallel, Expression

for the energy stored,

6.3.4 Numericals on capacitor.

6.4 Current electricity :

6.4.1 Ohm’s law, Resistence, Specific resistance,

Combination of resistances, e.m.f. and p.d.,

Temperature coefficient of resistance.

6.4.2 Wheatstone’s network, Wheatstone’s network,

Wheatstone’s Bridge(W.B.), Potentiometer ,

Applications , Numerical problems on specific

resistances and wheatstone’bridge.

6.4 Magnetic materials :

6.4.1 Modern concepts of magnetism, Dia, Para,

Ferromagnetism,

6.4.2 Testing of magnetic materials , Current

15 09

carrying conductor in magnetic field,

6.4.3 Moving coil galvanometer , Shunt.

7.0 MODERN PHYSICS :

7.1 Bohr’s theory :

7.1.1 Bohr’s Postulates , Energy level diagram for

hydrogen atom.

7.2 Crystal Structure 7.2.1 Space lattice, Unit cell, Cubic Crystal

Sructures- Simple cubic,(S.C.), Body centred

cubic(B.C.C.), Face centred cubic(F.C.C.).

7.2.2 Number of atoms per unit cell, Atomic radius,

Co-ordination number, Packing density.

7.2.3 Atomic planes and spacing, Miller indices.

7.3 Band theory of solids

7.3.1 Classification of materials in to conductorsm

semiconductors and insulators , Doping,

7.3.2 Formation of p type and n type

semiconductor.

7.5 Lasers :

7.5.1 Elementary idea , Spontaneous and Stimulated

emissions, Ruby laser, Helium-neon laser.

7.6 Fibre optics 7.6.1Total internal reflection, Wave guide for light,

optical fibre-step index and graded ibdex,

Applications.

15 10

8.0 SUPERCONDUCTIVITY AND

NANOTECHNOLOGY:

8.1 Super conductivity :

8.1.1 Principle of superconductivity, zero ohmic

resistance, Meissner effect.

8.1.2 Properties and Applications.

8.2 Nanotechnology :

8.2.1 Nano – Technology , Nano – science , Nano –

materials , Nano – machines.

8.2.2 Instruments being used in Nano – technology,

Five generation of Nano – technology, Carbon

allutrops,Applications.

05 03

TOTAL 100 64

B) PRACTICALCONTENTS :

a) Experiments to be perform ( Any 10 ) :

1. Use of Measuring Instruments – Vernier Callipers, Micrometer Screw Gauge ,

Spherometer.

2. Young’s Modulus by Searle’s Apparatus.

3. Surface tension by Capillary rise method.

4. Viscosity by Poiseuille’s method.

5. Thermal conductivity of a good conductor by Searle’s Apparatus.

6. Velocity of sound by Resonance.

7. Frequency of A.C. Supply by Sonometer and Verification by C.R.O.

8. Study of Spectrometer ( Minimum Deviation and Refractive Index and Angle of

Prism)

9. Wavelength of Light by Diffraction Grating.

10. Specific rotation by Polarimeter.

11. ‘J ‘by Electrical Method.

12. Use of Whetstone’s Bridge ( Resistance , Specific resistance ).

13. Use of Potentiometer (Principle Comparison of e.m.f.of Cell , Calibration of

Voltmeter).

14. Study of Crystal Structure.

15. Wavelength of Laser Beam ( He – Ne ) by Diffraction Grating.

b) Demonstrations (Any 04)

i) Use of Precision Measuring Instruments ( Dial Vernier , Dial Micrometer ,

Travelling Microscope etc.)

ii) Poisson’s Ratio for Rubber Tube.

iii) Temperature of Flame ( Optical Pyrometer )

iv) Spectra of Ionised Gases.

v) Study of Photocell.

vi) Study of Newton’s Rings.

vii) Study of Para and Diamagnetism by Electromagnet.

6. TERM WORK :

Compulsory term-work on the list of experiments written in a journal and carrying –

marks on timely submission basis specified at the index sheet of Physics Journal.

7. SCHEME OF PRACTICAL EXAMINATION:

( i ) Each candidate will be examined in one experiment from among those prescribed in the syllabus.

The duration of the experiment will be two hours ( with a coupling of Demonstration if any ).

( ii ) The performance of the candidate in the practical examination will be assessed out of 50 marks as

shown in the following scheme.

Scheme of Assessment:

a) Connections , adjustments and observations………………………….20 marks

b) Circuit Diagram, figures and tabulation………………………………10 marks

c) Formula, calculations and graphs if any………………………………10 marks

d) Oral……………………………………………………………………05 marks

e) Correct answer or appropriate result………………………………….05 marks

50 marks


( i ) Theory – Lesson Plan

( ii ) Practical – Scheme of making for T/W, Scheme of assessment for Practical Examination.

Sr.

No

.


1. R.K. Gaur and

S.L. Gupta Engineering Physics

Dhanpat Rai Publishing Co.

New Delhi

2. M.R.Shrinivasan Physics for Engineers New Age International , New

Delhi

3.

P.G.Kshirsagar

and

M.N.Avandhunu

lu

A Text Book of Engineering

Physics

S.Chand and Co. Ltd , New

Delhi

4.

Gambhir,

Durgapal and

Banerji

Introductory Physics –

Volume 1,2 & 3 Wiley Eastern




1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30


Program: Plastics Engineering Semester: II

Duration: 16 weeks

Course: Material Science Code: 160502





duration &

marks


L/Pr/Cr


02 02 04 01 03 100 30 70 25@ 25** 150 224


1. To provide basic knowledge of properties and applications of important metals, alloys and

non-metallic materials and selection criteria for desired application.

2. To provide knowledge of heat treatment given to steel.

3. To provide basic knowledge of materials to construct mold & dies components.

4. COURES OUTCOMES:

1 List out metals & non-metals.

2 Understand definition of material science, difference between metals & non-

metals & its alloy.

3 Explain mechanical properties, technological properties & Indian standard

specification for metals & non-metals.

4 Arrange metals & non-metals according to its composition, properties & uses

& select factors affecting mechanical properties.

5 Justify “Heat treatment is required to select & detect its defect 6 Describe materials used in constructions of moulds & dies components & do

various mechanical tests Such as Rockwell Hardness, yield strength, creep

properties, microscopic examination, and Heat treatment methods.



SECTION-I

1 1.0 Introduction to Material science

1.1 Definition of materials science and their

importance.

1.2 Classification: Metals and non-metals, Ferrous

and non-ferrous metals and their alloys

1.3 Names of common metals, their alloys and non-

metals used in Industry

1.4 Physical properties - Appearance, lustre, colour,

density and melting point.

04 10

2 2.0 Properties of Materials

2.1 Definition of Property

2.2 Classification of Properties (Spectrum)

2.3 Mechanical Properties - hardness, brittleness,

elasticity, resilience, plasticity, yield strength,

tensile strength, ductility, malleability, impact

strength, creep, fatigue, wear resistance

2.4 Factors affecting. mechanical properties

2.5 Factors considered in selection of materials.

Some examples for selecting materials eg. Spring,

Gear, Screw Driver etc.

06 20

3 3.0 Selection, specifications and commercial

availability of materials

3.1 Practical considerations for selection of material

for different purposes

3.2 ISO/Bureau of Indian standard specifications

for metals, non-metals, various components and

materials.

3.3 Technological Properties of metals and alloys

cost ability, Machinability, Weldability, forgability,

formability

06 20

TOTAL 16

50

SECTION -II

4 4.0 Metals and alloys (Types, Composition,

Properties and uses.

4.1Cast Irons

4.2 Steels: Plain

Carbon Steels, effect of alloying elements on

properties of Steels. Stainless Steel, tools Steels,

Die Steels, Spring Still

4.3 Non Ferrous Metals and alloys Cu, Zn, Sn, Pb,

AT, brass, Bronze, Gunmetal, Bearing Metal,

Duralumin

08 20

5 5.0 Non Metallic Materials

5.1 Ceramics

5.2 Refractoriness

5.3 Insulating Materials

5.4 Plastic Rubbers

5.5 Composites

5.6 Cryogenic Materials

5.7 Super Alloys

04 15

6 6.0 Heat treatment of Steel

6.1 Introduction - Definition, Purpose, Principles.

6.2 Types - Annealing, Normalizing, Hardening,

Tempering

6.3 Case I Surface hardening methods Carburising,

Cyaniding, nit riding flame hardening.

6.4 Heat treatment defects


1) To determine Rockwell hardness of metal sheet

2) Determine yield strength of metal.

3) To study the creep properties of metal

4) Microscopic examination of metal.

5) To study the iron-carbon equilibrium system.

6) To study the heat treatment methods of metal.

7) To study materials of constructions for mold & dies components.

7. IMPLEMENTATION STRTERGY (PLANNING)

Term Work

1. Preparation of specimen for micro examination

2. Microstructures and properties of cast irons and steel.

3. Heat treatment processes

4. Demonstration and visit to heat treatment shop.

5. Visit to mold fabrication industry/ machine manufacturing industry.

8. REFERENCE BOOKS:-

Sr.No. Author Title Edition

Year of Publication

Publishers &

Address

1 Dr. O. P. Khanna Material Science & Metallurgy 12th 2003

DhanpatRai& Sons

New Delhi

2. Dr. V. D. Kodire Material Science & Metallurgy 10th 2003 Everest Publication

3.

S. K. Hazza Choudhary

Lakhtin

Material Science &

Process Engineering

Physical Metallurgy

10th

4th

2003

1975

Media Promoter & Public Pvt. Ltd. Mumbai

Peace Publication

Mascow

4. A.S.M. Vol. I

Properties & Selection

Iron & Steel 10th 1998

American Society

for Metels

5. A.S.M. Vol. V Heat Treatment 10th 1998

American Society

for Metels




1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30



Duration: 16 weeks

Course: Engineering Mathematics Code: 160008





duration &

marks


L/Pr/Cr


03 00 1 04 01 03 100 30 70 25@ 125 314

3. COURSE OBJECTIVE: Engineering Mathematics is classified as Basic science subject which intends to teach students

the facts concepts and principles of Mathematics that can be applied to solve problem in

engineering field.

4. COURES OUTCOMES:

1 Evaluate Problems on functions and limits of various types.

2 Analyse suitable methods to solve derivatives and its application in the field of

engineering

3 Perform the various operation on complex numbers

4 Apply the concept of vector to solve problems of work done and force.



SECTION-I

1 FUNCTION AND LIMIT

1.1 Definition of variable, constant, value of function, composite function.

1.2 Limit of algebraic, trigonometric,expontial and logarithmic.

10 22

2 DERIVATIVES

2.1 Definition of Derivatives 2.2 Rules of Differentiation 2.3 Composite Function 2.4 Inverse trigonometric function 2.5 Implicit function 2.6 Logarithmic function 2.7 Parametric function. 2.8 Derivative of one function w.r.t

another function. 2.9 Second order differentiation

14 28

TOTAL 24 50

SECTION-II

3 APPLICATION OF DERIVATIVES : 3.1 Geometrical meaning of Derivative 3.2 Tangent and normal line Rates 3.3 Velocity and Acceleration 3.4 Maxima & Minima 3.5 Radius of curvature

08 16

4 COMPLEX NUMBER 4.1 Definition of complex number 4.2 Algebra of complex numer,equality,addition,subtraction, multiplication and division 4.3 De Movires theorem. 4.4 Euler’s form of circular function 4.5 Hyperbolic functions.

08 18

5 VECTOR ALGEBRA

5.1 Definition of vector 5.2 Algebra of vectors, equality,

addition,substraction and multiplication. 5.3 Dot product 5.4 Cross product 5.5 Scalar triple product

08 16

5.6 Work done 5.7 Moment of force about a point and line 5.8 Area of triangle, parallelogram 5.9 Volume parallelepiped, tetra hedron.

TOTAL 24 50

6. IMPLEMENTATION STRATEGY(PLANNING) :-

Conducting lecture as per lesson plan and conducting tutorial in the same class room

7. Reference Book

Sr. Author Title Publishers & Address

No.

1. Shri. S.P. Calculus for Polytechnics Pune Vidyarthi Graha Deshpande Prakashan

Pune-30

2. Shri. B.M. Patel Applied Mathematics Nirali Prakashan Mumbai

Shri J.M. Rawal

3. Dr. B.S. Grewal Higher Engineering Khanna Publishers 2/B,

Mathematics Delhi-6

4. J.N. Wartikar, A text book of Applied Pune Vidyarthigraha

P.N. Wartikar Mathematics Prakashan, Pune- 411030

5. S.S.Sastry Introductory methods of Prentice Hall of India –New

Numerical analysis Delhi

6. M.K.Jain Numerical method for Wiley estern

Scientific and engineeing

computation


Que.

No.



1 Any 6 out of 8

( 3 marks each)

18 Any 4 out of 5

(5 marks each)

16

2 Any 4 out of 6

( 4 marks each)

16 Any 1 out of 2

(6 marks each)

06

3 Any 2 out of 3

( 8 marks each)

16 Any 1 out of 2

(8 marks each)

08

4 Any 6 out of 8

(3 marks each)

18

5 Any 4 out of 6

(4 marks each)

16

6 Any 2out of 3

(3 marks each)

16

TOTAL 50 50 30


Program: Plastics/ Chemical Semester: II

Duration: 16 weeks

Course: Polymer chemistry Code: 160503





duration &

marks


L/Pr/Cr


03 02 5 01 03 100 30 70 25@ 50** 175 325


The students will learn

Properties, uses, structure & Preparations of monomers.

Chemical bonds & role of functionality.

Methods of polymerization

Chemical & physical properties & additives.

Determination of molecular weight & its importance.

4. COURES OUTCOMES:

1 Understand different chemical compound and their bonding, structure and

usage in plastic manufacturing

2 Explain Polymerisation reaction

3 Distinguish addition reaction and condensation reaction

4 Prepare mechanism of reaction

5 Identify the plastics by flame test.

6 Classify the various polymers by testing them in the lab.



SECTION-I

1 1.0Introduction to organic compounds

(preparation ,properties and uses)

1.1Mechanism of chemical bond, Allotropy of

carbon

1.2 Hybridization, polarity of covalent bond,

Quadrivalance of carbon atom

1.3 Methane, ethane, benzene, toluene, methyl

alcohol, ethyl alcohol,

1.4Formaldehyde, acetaldehyde, benzaldehyde,

acetone, ethyl ether 1.5Nitrobenzene, aniline,

phenol, resorcinol, benzoic acid, acetic acid

07 15

2 2.0 Raw materials, preparation, properties and

uses for polymers and resins

2.1 phenol, cresol, resorcinol, bisphenols, amino

compounds like urea, melamine, aniline,

paratoluene sulphonamine etc.

2.2 Poly functional acids and phthalic anhydride,

terepthalic acid adipic acid, sebacic acid, malic

acid, fumaric acid, Glycols, glycerine,

hexamethylenediamine and polyamines Ethylene,

acetylene, butadiene, propylene, styrene Acrylic

esters and acrylonitrile, epichlorohydrine, vinyl

chloride, Vinyl acetate and other similar

compounds.

10 20

3 Introduction To Polymers :

What is polymer, monomer and polymerisation,

degree of Polymerisation? Classification of

polymers natural, synthetic, organic, inorganic

polymers, Plastics Elastomers, fibres & resins.

Thermoplastic and Thermosetting resins,

commodity, Engineering & speciality plastics,

homopolymer copolymers

07 15

TOTAL 24 50

SECTION-II

4 4.0 Mechanism Of Polymerization

4.1 Addition polymerization, Free radical

polymerization (Initiation propagation,

termination)., Ionic polymerization

4.2 propagation, termination)., Ionic polymerization

Co-ordination polymerization such as

polymerization with Ziegler-Natta catalyst, chain

09 20

transfer Reaction

4.3 Concept of functionality & its importance,

4.4 condensation polymerisation- polycondensation,

ring opening

4.5 polymerisation , co poly condensation

5 5.0 Polymerization Techniques (Introductory

Level)

5.1 Bulk, Solution, Suspension and Emulsion

polymerization, their merits and demerits,

comparison of different techniques (salient

features).

5.2 Degradation Of Polymers

5.3 What is Polymer degradation? Mechanical,

Oxidative, Thermal, UV Degradation. Prevention of

degradation.

06 15

6 Molecular Weight Of Polymer:

6.1Concept of average molecular weight i.e. weight

average molecular weight and number average

molecular weight, molecular weight Distribution,

mono & polydispersity.

6.2Methods for the determination of the average

molecular weight of polymers for e.g. Viscometry,

Cryoscopy, Ebulliometry, Osmosis, End group

analysis, Ultra centrifugation, Sedimentation,

concept of‘K’ value, practical significance of

average molecular weight

09 15

TOTAL 24 50


Practical will be performing in the chemistry laboratory as per academic schedule. Where the

students will perform following experiments individually.

1. To prepare polystyrene by bulk polymerization.

2. To calculate average molecular weight of polymer by Viscometers.

3. To determine acid value of oil/fatty acid.

4. To compute density of plastics.

5. To identify common plastics by flame test.

6. To determine the purity of different solvent, monomer & other chemicals.

7. To determine the hydroxyl value of Resins.

8. To determine Saponification value of Resins.


The Course shall be taught using proper sketches and models of various chemical compounds.

Underlying principles, laws shall be explained. Industrial applications of this Course with respect

to various sources, preparation methods, physical and chemical properties and applications of

these chemical compounds shall be explained to the students

1.Lesson Plan

3.Teaching Plan:

8. REFERENCE BOOKS:

Sr.

No.



1 Bhal & Bhal Organic chemistry 14th 1995 S.c.Chand & Co. New

Delhi

2 Gowarikar Polymer science 18th 2001 New Age International

Delhi

3 F.W.Bilmeyer Text book of polymer

science

4th 2000 John wiley& sons, New

York

4 J. A. Brydson Plastics materials

3rd 1995

Butterworth-Heinemann, Oxford

5 Jerry March

Advanced Organic Chemistry

2nd 1992

John Wiley & Sons, N. Y.

6 K. J. Saunders

Organic Polymer chemistry

1th -

Chapman & Hal Publishers


Que.

No.



1 Any 6 out of 8

( 3 marks each)

18 Any 4 out of 5

(5 marks each)

16

2 Any 4 out of 6

( 4 marks each)

16 Any 1 out of 2

(6 marks each)

06

3 Any 2 out of 3

( 8 marks each)

16 Any 1 out of 2

(8 marks each)

08

4 Any 6 out of 8

(3 marks each)

18

5 Any 4 out of 6

(4 marks each)

16

6 Any 2out of 3

(3 marks each)

16

TOTAL 50 50 30

2.7.1. COURSE DETAILS:

Course : PL/CH Engineering Semester : II

Duration : 16 Weeks

Subject : Organic and Physical Chemistry Code : 160604

Group : C* Compulsory


Scheme of

Instructions &

Periods per Week

No. of Papers,

Duration &

Marks


L/Pr/Cr.

L P D T Cr NP Hrs Mks SSL Theory @T/W Pract. Oral Total

3 2 -- -- 05 01 03 100 30 70 25 50** -- 175 3 / 2 / 5

3. OBJECTIVES:

a) To develop an understanding and appreciation of both structure and chemical transformations

of organic molecules.

b) To learn and understand the fundamental principles/ basic concepts in physical chemistry that

govern the various chemical processing systems.

c) To understand the properties that describe solutions in terms of concentration, solute,

solvents and behavior of solutions

d) To summarize quantitative and qualitative effects of qualitative properties on a solution on

addition of a solute.

e) To study heterogeneous systems and phase rule and its significance. f) To expose the students to the basic practical techniques in organic chemistry.

4. COURES OUTCOMES:

1 Draw the structure of various organic molecules and write their IUPAC names.

2 Write the chemical reactions of different organic compounds and carry out

conversions of organic compounds.

3 Understand the various ways of expressing concentrations of solutions, concept of

buffer solutions and its significance

4 Derive the quantitative relation between dissolved solute and the various

qualitative properties.

5 Draw the phase diagram and explain the coexistence of different phases.

6 Identify the functional groups in the organic compound.


SECTION-I

Organic Chemistry Chapter Content Hours Marks

1. 1.0 Fundamental concepts of organic chemistry: 1.1 Classification of organic compounds

1.2 Nomenclature of Organic Compounds

1.2.1 Functional Groups

1.2.2 Homologous Series

1.2.3 IUPAC System

1.3 Structure

1.3.1 Valency of Carbon

1.3.2 sp3, sp2, sp hybridization of Carbon

Practice:

1. Determination of melting point of solids and boiling points

of liquids

2. Detection of elements C,H,N,S halogen by Na-fusion test

04 08

2. 2.0 Fundamental concepts in organic reaction mechanism: 2.1 Inductive effect and electromeric effect

2.2 Resonance in Benzene

2.3 Bond Fission − Homolytic, Heterolytic and Free radical

fission

2.4 Carbocation and Carbanion

2.5 Types of Reagents – Electrophilic and Neucleophilic

2.6 Types of Organic Reactions – Substitution, Addition,

Elimination, Rearrangements.

03 07

3. 3.0 Study of Organic Compounds ─ Preparation,

Properties & Uses of following Compounds

3.1 Aliphatic Compounds

3.1.1 Methane, Ethane, Chloromethane, Chloroethane

3.1.2 Ethene, Ethyne

3.1.3 Methyl Alcohol, Ethyl Alcohol,

3.1.4 Acetaldehyde, Acetone

3.1.5 Formic Acid, Acetic Acid

10

20

3.2 Aromatic Compounds

3.2.1 Benzene, Toluene

3.2.2 Phenol Benzaldehyde, Benzoic Acid

3.2.3 Nitrobenzene, Aniline

Practice :

Detection of following compounds :

1. Ethyl alcohol 7. Oxalic acid

2. Urea 8. Phenol

3. Acetic acid 9. Aniline

4. Salicylic acid 10. Benzaldehyde

5. Citric acid 11. Nitrobenzene

6. Benzoic acid

07 15

TOTAL 24 50

SECTION-II

Physical Chemistry

Chapter Content Hours

Marks

4. 4.0 Solutions : 4.1 Definition, concentration (Molarity, Normality, Molality and

Mole fractions)

4.2 Ideal Solution

4.3 Raoult’s law for dilute solution

4.4 Theory of dilute solutions

4.4.1 Colligative Properties – Relative lowering of Vapour

pressure, Elevation of Boiling Point, Freezing Point Depression

4.4.2 Raoult’s law of relative lowering of vapour pressure

07 15

5. 5.0 Hydrolysis and buffer solutions : 5.1 Concepts of Acids and Bases – Lowry Bronsted theory,

Conjugate Acids and Bases, Lewis’ theory.

5.2 pH and pOH of solution, Buffer solution

5.3 Solubility product, hydrolysis, degree of hydrolysis, hydrolysis

constant, relation between hydrolysis constant and dissociation

constant

Practice :

1. Determination of pH of a solution.

2. Preparation of buffer solutions

3. Study of hydrolysis of salts

07 15

6. 6.0 Heterogeneous System: 6.1 Phase rule – Terms involved, statement, phase diagram of water

and sulphur system.

6.2 Nernst’ distribution law – calculation of partition coefficient,

deviation from Nernst’ distribution law, applications.

6.3 Colloidal state – Preparation, purification and properties of

colloidal solutions, stability and coagulation of colloids.

Practice :

1. Determination of partition coefficient to determine the

equilibrium constant for the reaction I-+ I2 → an aqueous

medium at room temperature by distribution method.

10 20

Total 24 50

6. IMPLEMENTATION STRATEGY (PLANNING): 1. Theory topics and practice experiments should be done simultaneously. This will help the

student to understand the topics.

2. Question papers for the periodical should cover all the topics which have been taught to test

the understanding.

3I

7. REFERENCE:

Sr. No. Author Title Publishers & Address

1. Raichura Paveri Organic Chemistry Sheth Publishers

2. Bahl and Bahl Organic Chemistry S.Chand & Co. New Delhi

3. P.L. Soni Organic Chemistry S.Chand & Co. New Delhi

4. Puri & Sharma Physical Chemistry S. Nagin & Co. Jullundar

5. Sharma & Sharma Physical Chemistry Vani Education Books, New Delhi

6. P.L.Soni Physical Chemistry S.Chand & Co. New Delhi

9. QUESTION PAPER PATTERN



1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30

3.1.COURSE DETAILS: Programme:- Plastics / Chemical Engineering Semester:- III Duration:- 16 weeks

Course:- Technology of Plastics Course Code:- 160504 Group:- C * Compulsory


Scheme of

Instructions and

Periods per week

Theory Paper

duration and

marks

Scheme of Examination Group Scheme

L P D T CR Np Hrs Marks SSL Paper T/W PR Oral Total L/P/CR

4 2 - - 6 01 03 100 30 70 25@ 50** - 175 C* 426

3. OBJECTIVE: 1) Introduction of manufacturing process, reaction mechanism, structure, and characteristics

properties &applications of various types of plastics.

2) To understand various test used to identify different types of plastics..

3) To understand compounding of plastics & curing of resins.

.

4. COURES OUTCOMES:

1 Identify thermoplastic and thermosets material

2 Identify opaque and transparent material.

3 Prepare thermoplastic and thermosets

4 Calculate bulk factor, moisture control, molecular weight, water absorption.

5 The students will learn details properties and uses of various plastics.

6 Classify the various polymers by testing them in the lab.



SECTION-I

1 History & Development 0f Plastics

1.1 Revision of polymers, its classification, Origin

of the Polymeric materials. 1.2 Introduction to Nano- particles, nano-tubes&

their applications in polymer science

04 06

2 General definitions, laboratory preparations 16 29

andcommercial manufacture (introductory level)

and structureproperties and applications of the

following plastic materials:

2.1 Polyethylene, Polypropylene. Polystyrene, High

ImpactPolystyrene, Expanded Polystyrene. SAN.

2.2 Poly(methyl methacrylate),Poly(vinyl alcohol),

Poly(vinyl acetate), Poly(vinyl Chloride), Polyvinyl

butyral Polyesters such as

Poly(ethyleneterephthalate),Polybutyleneterephthal

ate

2.3 Cellulosic – cellulose & its sources – cellulose

nitrate, cellulose acetate, cellulose acetate butyrate,

cellulose acetate, propionate, ethyl cellulose, methyl

cellulose, propionate, ethyl cellulose, methyl

cellulose,

3 Additives & their role in compounding with

examples Need of compounding

Plasticizers ,Heat and light stabilizers, fillers,

colorants, lubricants, extenders , flame retardants,

impact modifiers, blowing agents, viscosity

modifiers, antioxidants antistatic agent

12 15

TOTAL 32 50

SECTION-II

4 Engineering Plastics - General definition,

laboratory, commercial manufacturing process

(introductory level),structure, characteristics

properties & applications

4.1Acrylonitrile-Butadiene-Styrene, Polycarbonate,

PolyacetalsPolyamides such as Nylon 6, 66, 4 6, 6

10, 11, 12, Aramides

4.3Polyphenyleneoxide,

4.4UHMHDPE,PEEK

4.5Liquid crystal polymers (examples)

4.6Conducting polymers

20 18

5 Thermosetting Resins- Laboratory, commercial

manufacturing process (introductory level),

structure,

5.1Phenol Formaldehyde, Urea Formaldehyde,

Melamine

5.2Formaldehyde, Epoxy, Polyurethane,

unsaturated Polyester

06 16

6 Speciality Polymers- commercial manufacturing

process(Introductory level), structure,

characteristics properties & application

6.1Ethylene vinyl acetate, polysulfone, PPS,

Silicon,Fluropolymers- polyvinyl fluoride,

polyvinylidene fluoride,

06 16

TOTAL 32 50

6. LIST OF PRATICALS:- 1) Preparation of Novolac resin. 2) Preparation of resol resin.

3) To determine density of plastic material.

4) To identify plastics by flame & solvent test.

5) Preparation of Polystyrene by bulk polymerization.

6) To determine the melting point of plastics

7) To measure solution viscosity of polymeric material

8) To determine the bulk factor of the resin.

9) Preparation of urea formaldehyde.


The student will be able to identify various plastics by simple tests. The Term Work will be

based on scale in identifying different plastics, compounding technique and preparing

different type of plastics.

8. REFERENCE BOOKS:

Sr.

No. Author Title Edition

Year of


1 J.A. Brydson Plastic Materials 17th 1999 Butterworth, London

2. Gowarikar Polymer Science 18th 2001 New Age International, New Delhi

3. Encyclopedia Plastic Materials - - -

4. A,S. Athalye Plastic Materials Handbook Volume - I 3 1995

Multitech Publishing Co.

Ghatk.

5. Ernest W. Flick Plastic Additives An Industrial Guide 1 1986

May 05 Publications, New Jersey

6. A. S. Athalye

Identification & testing of

Plastics 1st 1992 Multitech Publishing Co.

7. F. W. Billmeyer Textbook of Polymer Science 3rd 1984

Johnwiley& Sons, New

York

8.

Micacl L.

Berins

Plastics Engineering

Handbook (SPI) 5th 1991 Champman& Hall London, New York


Que.

No.



1 Any 6 out of 8

( 3 marks each)

18 Any 4 out of 5

(5 marks each)

16

2 Any 4 out of 6

( 4 marks each)

16 Any 1 out of 2

(6 marks each)

06

3 Any 2 out of 3

( 8 marks each)

16 Any 1 out of 2

(8 marks each)

08

4 Any 6 out of 8 18

(3 marks each)

5 Any 4 out of 6

(4 marks each)

16

6 Any 2out of 3

(3 marks each)

16

TOTAL 50 50 30

1 PROGRAM DETAILS:

Program: CH/PL/CE Semester: III

Course: Applied Mathematics Group : C*

Course Code : 160013 Duration: 16 Weeks.


3. COURSE OBJECTIVES:

Applied Mathematics intends to teach students the concepts and principles of

Mathematics which can be applied to solve problems in Chemical/Plastic/ Civil

Engineering.

4. COURSE OUTCOMES: At the end of the course the students will be able to

CO.1 Integrate various expressions using concepts of inverse differentiation, partial

function, method of substitution CO.2 Calculate length of an arc,area,volume using Definite Integrals

CO.3 Evaluate problems on probability and differential equation of various types. CO.4 Solve numerical method based problems of engineering applications

5. CONTENTS:

SECTION-I

Sr.

NO.

TOPICS Hours Marks

1 INTEGRATION 1.1 Definition of integration as anti-derivative

1.2 Integration of standard functions

1.3 Integration of sum and difference of two or more

functions

1.4 Method of integration

Substitution

Partial fraction

Trigonometric transformation

Integration by parts

1.5 Definite Integration

Using properties

1.6. Application of Integration

Mean value

Root mean square value

Area

Volume

Centre of Gravity

Moment of inertia

16 32

2 PROBABILITY

2.1 Definition of random experiments, Sample space

2.2 Event, occurrence of event, types of event.

2.3 Definition of probability, addition and

multiplication theory of probability

2.4 Probability of Normal, Binomial , Poisson’s

08 18

Scheme of

Instructions and

Periods per week

Theory Paper

duration and marks Scheme of Examination Grp Scheme

L P D T CR NP Hours Marks SSL Paper T/W PR Orals Total L/P/CR

3 - - 1 4 1 3 100 30 70 25@ - - 125 C* 314

distribution

Total 24 50

SECTION-II

3 DIFFERENTIAL EQUATIONS

3.1 Order and degree

3.2 Formation of differential equation.

3.3 Variable separable

3.4 Reducible to variable separable

3.5 Homogeneous

3.6 Non Homogeneous.

3.7 Exact differential equation

3.8 Linear form

3.9 Nonlinear Bernoulli’s equation

3.10 Applications of Differential Equations

16 32

4 NUMERICAL METHODS

4.1 Newton Raphson , Bisection, Regula-falsi method

4.2 Solving simultaneous equation with 2 and 3

variables using Gauss elimination method, iterative

methods – Gauss seidal and jacobi’s methods

08 18

Total 24 50

6. TERM WORK:

One assignment on each topic consisting of problems covering all varieties, continuously

assessed by teacher & submitted by student at the end of term.


1. Teaching Plan

2. Tutorials

3. Assignments

8. REFERENCE BOOKS:

S. N. Author Title Edition Publisher & Address

1 Shri. S.P.Deshpande Calculus for Polytechnics Latest Pune Vidyarthi Graha

Prakashan Pune-30

2 Shri. B.M. Patel

Shri J.M. Rawal

Applied Mathematics Latest Nirali Prakashan

Mumbai

3 Dr. B.S. Grewal Higher Engineering

Mathematics

Latest Khanna Publishers 2/B,

Delhi-6

4 J.N. Wartikar,

P.N. Wartikar

A text book of Applied

Mathematics

Latest Pune Vidyarthigraha

Prakashan, Pune-30

S.S.Sastry Introductory methods of

Numerical analysis

Latest Prentice Hall of India –

New Delhi

M.K.Jain Numerical method for

Scientific and engineering

computation

Latest Wiley estern




1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30

1. COURSE DETAILS:-

3. OBJECTIVES:-

Students will be able to:

(i) Understand the concept and principle of A.C. fundamentals, which can be applied to rectify electrical faults and acquire supervisory role.

(ii) Select the drive for a given application.

(iii) Draw and describe basic electronic circuit.

(iv) Draw and explain the characteristics of electronic devices.

Program : ME/CH/PE Semester : III

Duration : 16 Weeks

Course: Basics of Electrical & Electronics Code:160015

Group: Core (C*) Compulsory

2. TEACHING AND EXAMINATION SCHEMES:-

Scheme of Theory Paper Scheme of Examination Gr Scheme

instruction & duration & L/Pr/Cr

Periods Per Week marks


Paper

4 2 - - 6 1 3 100 30 70 25@ - 25** 150 C* 426

4. Course Outcome: Students will be able to:

1) Understand the basic concept of Electronic Devices and Circuits. 2) Understand the fundamental automation by using different transducers. 3) Perform different Experiments on electronic circuit and measure its

characteristics (voltage, current and Frequency) 4) State the fundamental concept of Electrical Technology 5) Understand the concept of Single phase and three phase Electrical circuit 6) Classify electric motors and drives use for industrial applications

5. DETAILED CONTENTS:- SECTION I

Chapter Content

Hours Marks

1 Basic concept and principle of Electrical Engineering

1.1 Electricity fundamentals, Ohm's Law, Resistance in series

and parallel 06 08

1.2 Kirchhoff’s law, Faraday’s Laws of Electromagnetic Induction

1.2 A.C. fundamental

Concept of 1φ & 3φ AC Supply, P.F. Active & Reactive Power

(Simple numerical)

2 D.C.- Motors

04 06

2.1 D.C. Motors working Principle

2.2 Types of D.C. Motor.

2.3 Characteristics & Applications.

3 Transformer

06 08

3.1 Working Principle (simple numerical)

3.2 Construction.

3.3 Core type & Shell type transformer.

3.4 EMF Equation (simple numerical).

3.5 Turn ratio, Current ratio & Voltage ratio

3.6 Concept of Auto transformer & 3 φ transformer

4 A.C. Motors 06 10

4.1 Classification

4.2 3φ Induction Motors Principle, construction, , Types &

Application, Starting and control IM and Capacitor start

Motor

4.3 1φ Induction Motors

5 Electrical Drives 04 10

5.1 Introduction of Electrical Drives and advantages

5.2 Classification

5.3 Selection of Drive, Introduction to VFD

5.4 Drivers: Coupling, rope and chain drivers, Gear drivers.

6 Electrical Heating

06 08

6.1 Principle of Electrical Heating.

6.2 Resistance Heating, Induction Heating & di-electric

Heating Principle

7 Generation of Electricity

7.1 Basic principle of power Generation

7.2 Different Power Plants

Total

32 50

Section -2 : Electronics

Chapter

Content

Hours

Marks

1 Introduction To Electronics Devices

07 09

1.1 Conductors, Semiconductors, Insulators.

1.2 Electronic components: Resistor, Capacitor and Inductors

1.3 Semiconductor: Intrinsic and Extrinsic

1.4 Diode PN junction diode- symbol, Working,

Characteristics, Applications

1.5 Zener diode - symbol, Working, Characteristics, bipolar

junction transistors (BJT), characteristics(C-E Configuration

only)

2

06 09

2.1 Power devices silicon control rectifier (SCR), DIAC and

TRIAC, Symbol, working and characteristics

2.2 Photo devices: photodiode, phototransistor, symbol and

working, segment display

3 Rectifiers and filter circuits

03 06

3.1 Rectifier: Half wave, full wave and bridge types circuit, Wave

form and working

4 Amplifier and Oscillator

06 09

4.1 Single stage transitor Amplifier in C-E configuration, Circuit,

wave form and frequency response.

4.2 Two stage transitor Amplifier, R-C coupled

4.3 Principle, circuit and working of R-C phase shift oscillator.

5 Transducers

04 06

5.1 Transducers: Temperature, pressure and displacement.

6 Digital Electronics

06 11

6.1 Study of logic gates (AND, OR, NOT, NOR, NAND) Symbols

and truth table.

6.2 Study of flip-flop: J-K flip flop

6.3 Study of working principle of following with the help of block

diagram:

Multiplexer(4:1), Demultiplexer(1:4) and Decade counter

using J-K flip flop

6.4 Introduction and application of microprocessors and

microcontrollers in Mechanica/Plastics/chemical Industry.

I)Pressure control ii) Temperature control

TOTAL

32 50

6. PRACTICE: Electrical (Any five experiments)

1. Kirchhoff‟s Current law 2. Kirchhoff‟s Voltage law 3. 3-Ammeter method 4. 3-Voltmeter Method 5. Speed load characteristics of dc shunt motor 6. Load test on 1-phase transformer 7. Star Connection Circuit 8. Delta connection circuit 9. Study of 1 phase induction motor 10. Study of electric heating Electronics (Any five experiments)

1. Study of electronic components.

2. Study of P-N junction diode characteristics

3. Study of Zener diode characteristics

4. Study of transistor characteristics (CE) configuration.

5. Study of Diac characteristics

6. Study of rectifiers

7. Frequency response of single stage RC coupled CE amplifier

8. Study of RC Phase shift oscillator

9. Study of RTD thermistor characteristics

10. Study of logic gates.

7. IMPLEMENTATION STRATEGY (PLANNING):-

The syllabus is taught as per the lesson plan Using charts and demonstration of machines, devices & circuits in the electrical &

electronics laboratories.

8. REFERENCE BOOKS:-

Sr. Author Title Edition Year of Publisher

No. publishing & Address

1 B.L.Thereja (Vol Electrical 3rd 2002 S.Chand &

1,2) technology company

2 V.N.Mittal Basic 9th 1997 Tata

elect.engg. Megraw hill

3 Samarjit Ghosh Fundamental 1st 2003 Practise hall

of electrical India

&

Electronics

engg.

4 V. K Mehta

Basic

Electr

onics

S.Chand and Company

5 R.P Jain

Digital

Electr

onics

TMH Publications

9 QUESTION PAPER PATTERN



1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30

3.4.COURSE DETAILS:

Program: Plastics Engineering Semester: III Duration: 16 Week

Course: Plastic Moulding Techniques Code : 160505

Group: A* Compulsory


Scheme of instruction & Periods per week

Theory paper

duration &

Marks

Scheme of Examination Group Scheme

L/Pr/Cr

L P D T Cr Np Hrs Mks SSL Theory Tw PR OR Total 4 2 - - 6 01 03 100 30 70 50@ - 50** 200 A* 426

3. OBJECTIVES:

The student will be able to manufacture articles by using following machines:

1) To learn compression molding and transfer molding processes.

2) To learn manufacturing articles by injection molding process.

3) To learn rotational molding process.

4) To understand trouble shouting in above processes & processes parameters controls.

5) To prepare a laminate by hand laminate technique.

6) To manufacture of different foams using different materials.

4. COURES OUTCOMES:

1 Define compression molding, transfer molding and injection molding process.

2 Express principle of casting, hand layup, laminations and foaming methods

3 Discuss foaming process, lamination of plastics and FRP process

4 Detect molding defects of various moluding process.

5 Determine bulk factor, curing time, molding pressure, drying time of plastic materials

6 Create Injection molded products, thermoset’s product, FRP sheet, Polyurethanefoam, andprepare lamination for above products.


SECTION-I

CHAPTER CONTENT MARKS HOURS

1 1.0 Compression moulding: 1.1 Basic process and molding cycle

1.2Various grades of molding compound

1.3 Effect if bulk factor, flow properties, curing time,

temperature and pressure on molding cycle effects of pre-

heating and performing

1.4 Limitations of compression molding

1.5Trouble shooting: defects, causes and remedies.

15 10

2 2.0 Transfer moulding: 2.1 Basic process and molding cycle 2.2 Merits and demerits of process 2.3 Types & integral pot and auxiliary ram process 2.4 Transfer temperature and molding temperature 2.5 Transfer pressure and molding pressure

2.6 Effect of temperature, pressure and curing time

2.7 Trouble shooting & defects, causes and remedies.

15 10

3 3.0Rotational molding: 3.1 Basic process and materials

3.2 Effect of speed and temperature on article wall thickness

3.3 Advantages and disadvantages of process

3.4 Troubleshooting & defects, causes and remedies.

10 06

4 4.0 Foaming process: 4.1Principle, materials, additives

4.2 Foaming agents

4.3 Structural foam molding

4.4 Expanded bead styrene foams

4.5 Polyurethane foams

4.6 Low & high process

10 06

TOTAL 50 32

SECTION II

5 5.0 Injection molding: 5.1 Basic process and molding cycle

5.2 Merits and demerits of process

5.3 Details of about drying time, melt temperature, mould

Temperature, injection speed & other parameters of

following resins: ABS, Nylon 6, 66, PBT, PC, LDPE, PET,

POM, PP, PS, PVC, SAN, PEI, etc.

5.4Various process parameters like temperature, pressure,

injection rate, hold on time etc. and their influence on the

product quality of a bove resins.

5.5 Injection molding of thermosets & process parameters.

5.6 Reaction injection molding & process parameters.

5.7 Thin walled molding, co-injection & Gas Assist

injection molding

30 18

5.8 Importance of purging materials & purging.

5.9 Troubleshooting & defects, causes and remedies.

6.0 Laminates: 6.1 Basic process and materials

6.2 Types & high pressure and low pressure process

6.3 Production of industrial and decorative laminates

6.4 Applications of laminates.

06 04

7 7.0 FRP techniques: 7.1 Resins and reinforcing materials

7.2 Molding process & hand lay-up and spray lay-up

process

7.3 Filament winding

7.4 Sheet molding compound and bulk molding compound

7.5 Application

7.6 Trouble shooting.

06 04

8 8.0 Casting: 8.1 Basic process, cell cast, Pressure gelation, automatic

dispenser &centrifugal casting.

8.2 Solvent casting

8.3 Effect of various ingredients

08 06

TOTAL 50 32

4. LIST OF PRACTICALS :-

1) Visit to compression molding industry.

2) Visit to laminate manufacturing industry

3) Visit to transfer molding industry

4) Visit to rotational molding industry

5) Visit to foam manufacturing industry

6) Study injection molding process

7) Visit to laminate manufacturing industry

8) Visit to FRP manufacturing industry

9) Visit to Casting of plastic industry


The student will learn about different processes used in plastics for manufacturing different

products. Term Work will be based on practicals.

1) Lesson plan

2) Teaching plan

8. REFERENCES BOOKS:

Sr.

No. Title Author Edition

Year of

Publication

Publishers &

Address

1. Compression and Transfer Moulding Bikales 2 1986 -

2. Injection Moulding Rubbin 3rd

.

1992

John wiley&

sons, London

3. Injection Moulding M.V. Joshi 5t h 1994

Macmillian

India

4. SPI Handbook 2nd 1980

Vanoscarand

Publication

5. Plastic Processing Frados 4th 1990 -

9. QUESTION PAPER PATERN:



1. Any 6 out of 8 18 - - Any 3 out of 4 16

2. Any 4 out of 6 16 - - Any 1out of 2 06


4. - - Any 6 out of 8 18 - -

5. - - Any 4 out of 6 16 - -

6. - - Any 2 out of 3 16 - -

Total - 50 - 50 - 30

3.5.1 COURSE DETAILS:


Course: Plastics Processing Machine Course Code : 160506

Group: A*



Theory paper

duration &

Marks


L/Pr/Cr

L P D T Cr Np Hrs Mks SSL Theory Tw PR OR Total 4 2 - - 6 01 03 100 30 70 50@ - 50** 200 426

3. OBJECTIVES:

Course student will be able to understand the following:

1) Various mechanical instrumentation and control for injection moulding, compression, transfer,

rotational machines.

2) Knowledge of above all moulding machines & their construction.

3) Knowledge of different parts of machines, their working & functions.

4) Details of various supporting auxiliary equipment and service lines.

4. COURES OUTCOMES:

1 Select various mechanical instrumentation & control for injection molding.

2 Classify heating & cooling system in molding techniques

3 Express types of injection molding machine.

4 Design various auxiliary equipment used in molding techniques.

5 Evaluate L/D ratio, Compression ratio & estimate shot capacity & Cost of Injection

molding.

6 Explain working principle & functions of all plastic molding machine, High speed

mixture grinder, Hydraulic circuit & other equipment’s.


SECTION-I


1 1.0 Instrumentation : 1 1 Elementary ideas about mechanical instrumentation

and control

1.2 Basic ideas about detector/transducer, modifying /

amplifying and indicating/recording/registering devices

1.3 Mechanical details about instrument used for

measurement of pressure, flow, level and temperature

08 04

2 2.0 Equipments for Compression and Transfer molding:

2. I Various types of presses & applications and selection

2.2 Press specification

2.3 Study of drive, actuation and clamping

2.4 Heating and cooling systems

2.5 Automatic plants & automatic feeding and stripping

systems

2.6 Hydraulic circuits for ram speed control

2.7 Pre-heater and drying machines

2.8 Equipments for pre-forming

2.9 Equipments for mixing and compounding

2.10 Screw transfer machines

2.11 Study of feed systems, screw and plasticizing systems

2.12 Plant safety & general safety aspects, interlocked

safety devices, mould safety devices

30 12

3 3.0 Equipments for Rotational Moulding:

3.1 Batch type machines

3.2 Continuous type machines

3.3 Study of biaxial drive


12 08

TOTAL 50 24

SECTION II

4 4.0 Auxiliary Equipment

4.1 Hopper Drier, Dehumidifier, Hopper loader,

Automatic material conveying system Feeders,

Volumetric/Gravimetric.

4.2.Compounding and Blending devices-High Speed

Mixer, Two Roll mill,Banbury Mixer(Intensive mixer),

Equipments for mixing Drum Mixer,

Sigma/Ribbon,Blender,Planetary, mixer, Kneader mixer.

4.3. Other equipment-Mould temp controller, Blender,

Grinders, Pulverisers and Compressors,. Hot Runner

Control, Agglomerates.

4.4. Cooling towers and Chilling Plant lines and Service

Lines- Significance and Usage.

20 09

5 5.0 Details of Injection Moulding Machine : 5.1 Types of machines & Plunger and Screw types, single

stage and two stage machines, Inline and Pre-plasticizing

machines

5.2 Injection unit & constructional and design features of

hopper, barrel non-return valves, screws and nozzles

,heaters, screw profiles, L/D ratio, Compression ratio etc.

5.3 Clamping unit & characteristics required by a clamping

device hydraulic (direct) and toggle (indirect) locking

system & their characteristics, design & comparison

5.4 Injection moulding machine specifications , clamping

side and injection side specifications, estimation of shot

capacity, plasticizing capacity and clamping capacity

5.5 Hydraulic control circuits for injection and clamping

unit 5.6 Injection moulding machines for thermo sets & major differences in design of screw, barrel and nozzle, temperature control. 5.7. Advantages of Tie-Barless Machine and Micro

Processor Injection Molding Machine.

5.8 Equipments for reaction injection molding

5.9 Safety aspects of injection molding equipments.

30 15

TOTAL 50 24

6. LIST OF PRACTICALS

Practical will be performed in the Plastics workshop as per academic schedule. Where the

students will perform following experiments individually.

1. Demonstration of basic mechanical control, pressure, and flow measuring devices.

2. Demonstration of Hand injection molding machine.

3. Demonstration of Mechanical Compression Press.

4. Demonstration of Hydraulic Press and study of its hydraulic circuits..

5. Demonstration of High Speed Mixer.

6. Demonstration of Grinder.

7. Demonstration of Screw Injection Molding Machine and study of its pneumatic hydraulic

circuits.

8. Demonstration of Rotational Molding Machine.

9. To find out simulated faults and fault detection.

10.Visit to Molding Machine Manufacturing Industries.


Students will be made conversant with the compression, transfer, roto-molding equipments. They

will understand the basic assembly and various parts of injection molding machine. They will be

able to find out various stimulated faults.

1) Teaching Plan

2) Lesson Plan







4. - - Any 6 out of 8 18 - -

5. - - Any 4 out of 6 16 - -

6. - - Any 2 out of 3 16 - -

Total - 50 - 50 - 30

3.6.1 COURSE DETAILS:-


Course: Strength Of Materials Course Code : 160134

Optional

Group: C




duration &

marks


L/Pr/Cr


04 02 - - 06 01 03 100 30 70 50@ - - 150 426

3. OBJECTIVE:

Strength of materials is fundamental engineering subject which gives idea about concept of

stresses and strains in elastic materials, their properties and mechanical behaviour under

different conditions of loading. Also this subject is a prerequisite subject to higher-semester

subjects like, Plastic Mould Design

4. OUTCOMES:

1) Define & distinguishes different types of Stresses

2) Understand the stresses under different condition of loading /forces

3) Solve the SFD & BMD diagrams for given Load on beam

4) Analyze and design structural members subjected to tension, compression, torsion,

bending & combined stresses using fundamental concepts of stress ,strain and elastic

behaviour

5) calculate the stresses in a beam & shaft

6) Perform Engineering work in accordance with ethical & economic constraints related to

the design of structures and parts



SECTION-I

1 SIMPLE STRESSES & STRAINS

1.1 Definition of rigid body, plastic body and

elasticity

1.2 Definition of strain, stress, modulus of

elasticity

1.3 Classification of stress, strain.

1.4 Deformation of body due to axial load

1.5 Deformation of body of varying c/s due to

axial load, max. stress and min. stress

induced (no tapering sections)

1.6 Stresses in bars of composite section.

1.7 Temperature stress and strain, coefficient of

thermal expansion

1.8 Temperature Stress in bars of composite

section.

1.9 Shear stress, complementary shear stress,

state of simple shear, modulus of rigidity

08 12

2 ELASTIC CONSTANTS

2.1 Definition of lateral strain, Poisson’s ratio.

2.2 Change in lateral dimensions

2.3 Volumetric strain due to axial force and

change in volume

2.4 Bi axial and Tri axial stresses and

volumetric strain

2.5 Definition of Bulk Modulus, change in

volume

2.6 Relation between Modulus of Elasticity

Modulus of rigidity and bulk modulus

06 08

3 STRAIN ENERGY

3.1 Types of loading – gradual, sudden &

Impact load

3.2. Definition of strain energy, modulus of

resilience and proof resilience

3.3 Comparison of stresses due to gradual load,

sudden load and impact load. Instantaneous

stress induced in the body

3.4 Strain energy stored due to gradual, sudden

& impact load in the body

05 08

4 PRINCIPAL PLANES AND STRESSES 4.1 Stresses on oblique plane i.e. normal stress

and tangential stress

4.2 Definition of principal planes and principal

stresses

4.3 Principal planes and principal stresses due to

Biaxial Stress System (Analytical and graphical

method)

4.4 Principal plane and principal stresses due to

complex stress system (Analytical and graphical

method)

07 12

5 MOMENT OF INERTIA

5.1 Concept of moment of inertia M.I. of plane

areas such as rectangle, triangle, circle,

semicircle and quarter circle

5.2 Parallel axis and perpendicular axis theorem

M.I of composite sections, built up sections,

symmetrical and unsymmetrical sections, radius

of gyration polar moment of inertia

06 10

TOTAL 32 50

SECTION-II

6 SHEAR FORCE & BENDING MOMENT

DIAGRAMS

6.1Definition of Shear

Force and Bending Moment

Force , relation between SF

& BM and Load.

6.2 .SF & BM Diagram for

Simply supported,

6.3 Cantilever, and Over

Hang beams subjected to

combination of Point Load,

6.4 Uniformly Distributed

Load.

10 14

7 BENDING STRESSES IN BEAMS

7.1 Concept of pure bending, Theory of Simple

Bending, assumptions in Theory of Bending,

Neutral Axis, Bending Stresses and their nature,

Bending Stress Distribution Diagram, Moment of

Resistance of flitched beam sections

7.2 Application of theory of bending to

Symmetrical and asymmetrical beam sections.

06 10

8 DIRECT AND BENDING STRESSES.

8.1 Concept of direct (concentric) and eccentric

load.

05 08

8.2 Uniaxial and Biaxial bending of short

compression member

8.3 Stress distribution across the section,

resultant stress, condition for no tension, middle

third rule, core of the section.

9 TORSION

9.1 Definition of torsion,

theory of pure torsion,

Assumptions, equation of

torsion, angle of twist,

torsional rigidity, polar

section modulus, ,

9.2 Torque transmitted by shaft

Strength of shaft and stiffness of shaft

9.3 Power transmitted by the shaft, design of shaft

06 10

10 STRESSES IN SHELLS:

10.1 Definition of thin & thick shells.

Stresses in the

walls of thin cylindrical

shells due to Internal

pressure, circumferential

(hoop) & longitudinal

stresses

10.2. Change in dimension,

change in volume due

to internal Pressure

Thick cylindrical shell,

Lame’s equation

05 08

TOTAL 32 50

5. LIST OF PRACTICALS:

1) Study of Universal Testing Machine & Extensometer

2)Tension test on standard mild steel specimen

3) Tension test on standard tor steel specimen

4) Shear test on standard mild steel specimen.

5) Izod Impact test

6) Brinell’s Hardness test

7) Bend test on bars and flats.

8) Transverse test on beam

9 ) Deflection test

10)Graphics (Mohr’s Stress Circles Minimum 6

6. IMPLEMENTION STRATEGY (PLANNING):

Teaching Plan

Model

REFERENCE BOOKS:

Sr. No.

Author Title

Edition Year of Publisher & Address.

Publication

1 Khurmi R.S. Strength of Latest 2004 S.Chand & Co. Mumbai

Materials

2 Ramamurtha Strength of Latest 2003 Dhanpatrai Pub. 3917,

M Materials New Delhi

R.Narayanan

3 S S Strength of Latest 2005 Vikas Publishing House

Bhavikatti Materials pvt ltd.

New Delhi-14

4 K Srinivas Strength of Latest 2003 Central Techno

Rao Materials Publications

R M Kasare Nagpur-10

5 S B Mechanics of Latest - Charotar Publishers.

Junnerkar Structures

Vol-1




1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30


Program: Plastics Engineering Semester: III

Duration: 16 weeks

Course: Stress Management Code: 160016

Group: M Optional




duration &

marks


L/Pr/Cr


- 2 - - 2 - - - - - - - -- --- 022


1. To provide basic technique and practice of yoga.

2. To provide basic understanding of principles embodied in the Yoga sutras.

3. To aware the importance of yoga in day to day life.

4. COURES OUTCOMES:

C205.1 To Demonstrate Yoga practice.

C205.2 To Develop physical competency and mental concentration.

C 205.3 To Increase efficiency, concentration, inner power and enhance the spiritual power

for Improving Learning Skill.



SECTION-I

1 1. HISTORICAL BACKGROUND AND YOGA

LEARNING :

i) Yoga in Vedas

ii) Yoga and its Principles

iii) Consciousness

iv) Yoga approach and Scientific view

v) Pranayama: Breath Control, Breath and Postures,

Rhythmic Breathing

vi) Controlling the Body, Mechanism of Body: Kriyas

and its high Therapeutic value.

vii) Body as understood in its frame work systems and

structure:.Asanas Cultural

and Relaxation Asanas -

viii) Muscles strength, Muscular coordination strength

of Immune system

ix) Relation and Reflection techniques Shavasana

Shakshi Bhavanam.

x) Bandhas and Mudras.

xi) Depth of perception and expansion of awareness

xii ) Gross level Muscular stretches

xiii) Subtle level Respiration changes and normalizing

breath

10

2 2.MEDITATION AND ITS TECHNIQUES:

Meditative postures and kinds of Meditation

Bodily Benefits Lower Blood Pressure ,lowers the

levels of blood lactate,

improves the immune system, increases body vitality,

controls insomnia and increases

overall health of the body

Violence Free Society Meditation develops

happiness, contentment and

calmness. When increasing number of people practice

meditation, it has a calming effect

on the environment. This is a potent way to achieve a

violence free society.

Mental Benefits Emotional stability, anxiety

decreases, anger reduces,

happiness increases, and intuition develops clarity and

peace of mind, induces ability to

focus, and reduces tension and fear.

Value Based Society The effects of meditation

include happiness, respect for

the environment and others, appreciation of diversity

10

in nature, a strong sense of social

values. These qualities an individual level, helps

develop a value based social system.

Spiritual Growth Consciousness evolves, meditation

brings harmony in

creation, personal transformation, realization of SELF

Trusting, Happy and Content Society These are the

objectives of any society.

Meditation empowers a society to achieve these

qualities.

3 3. ART OF LIVING

1. Sudarshan Kriya

2. Life Skills

3. Ancient Wisdom

4. Practical knowledge to deal with the daily

challenges of life

5. Interactive exercises

6. Dealing with your emotions

7. Improving Communication skills and Relationship

08

4 4. STRESS MANAGEMENT FOR STUDENTS

Stress management techniques:

1. Time management techniques

2. Organization techniques

3. Create a study environment

4. Memorization techniques

5. Be an Optimist

6. Sleep Well

7. Study Techniques

04

TOTAL 32

6. IMPLEMENTATION STRATEGY AND PRACTICE SKILL

1. The students will be performing practice sessions covering above topics.

2. Live demonstration along with content delivery sessions will be conducted.

3. The lecture room/ Hall separately will be assigned batchwise as per Time Table for

Male (Boys) and Female(Girls) as where an applicable depending upon relevant topics.

4. The materials/ Items required example Yoga Matt/ Chatai/corresponding matt / towels /

chadar are to be brought by students only for particular topics.

7.0 BOOK LIST:-

1. The Yoga Sutra of Patanjali M.R.Yardi, Bhandarkar Oriental Research Institute, Pune

2. Indian Philosophy by Dr. S. Radhakrishanan

3. Introduction to Indian Philosophy by Dutta & Chatterji

4. Outlines of Indian Philosophy by Hiriyanna.

8.0 Book for reference

1. The Yoga system of Patanjali, James, Hougton , wood.

2. Yoga a sutras of Patanjali Sadhana pada with Exposition of Vyasa

3. Light of Yoga (on Yama Niyama) by B.K.S. Iyenger, Iyenger Institute Pune

4. Hatha Yoga Pradeepika Yogi Swatmarama

5. Science of Yoga by I.K.Taimini

9.0 WEB REFERENCES:

1. http://www.artofliving.org

2. http://www.bkwsu.org

3. http://www.theyogainstitute.org

4. http://www.managingstress.com

The above subject will be taken by concerned expert in the field/ relevant to

performance / performing practices,

02 credits are equivalent to (02 hours) practice session. Attendance and performance

is mandatory for granting the term and earning the credits as per attendance rule.

Sr. No. Course Name & Code

Scheme of Instructions and

Periods per week

TheoryPaper

Duration &

Marks

Scheme of Examination Gr Scheme

L/Pr/CR


4.1 Basics of Mould Design

(160508)

3 - 4 - 7 04 100 30 70 50@ 50** 200 A* 346

4.2 #Hydraulics, Pneumatics & System Control

(160510)

3 2 - - 5 03 100 30 70 50@ -- 50** 200 A* 325

4.3 Polymer Composites ,Blends & Alloy

(160511)

3 1 4 03 100 30 70 25@ 50** - 175 A* 314

4.4 #Plastics Product Design and Testing

(160512)

4 2 - - 6 03 100 30 70 50@ 50** - 200 A* 426

4.5 Elastomer Technology

(160513)

3 - 1 4 03 100 30 70 25@ - 25** 150 A 314

4.6 Additives & Compounding of PLASTIC

(160514)

3 1 4 03 100 30 70 25@ -- -- 125 A 314

# Elective Subjects (any One)

4.7 #CAD,CAM,CIM

(160515)

2 3 - - 5 03 100 30 70 50@ 50** 200 A* 235

4.8 #Metrology & Quality Control

(160509)

3 2 - - 5 03 100 30 70 50@ 50** - 200 A* 325

Total 22 6 4 3 35 No. of

papers*=5

210 490 275 200 75 1250





PROGRAMME: PLASTICS ENGINEERING SEMESTER :IV W.E.F Batch Admitted JUNE 2016


HOD PRINCIPAL


Program: Plastics Engineering Semester: IV

Duration: 16 weeks

Course: Basics of Mould Design Code: 160508





duration &

marks


L/Pr/Cr


03 04 07 01 04 100 30 70 50@ 50** --- 200 347


To provide basic understanding of compression & Transfer molds.

To explain various mold components & their assembly of compression& transfer molds.

To explain various types of mold heating in compression and transfer mold

4. COURES OUTCOMES:

1 Know different types of compression moulds used commonly.

2 Design & draw compression molds & transfer molds

3 Understand different techniques to produce complex articles.

4 Distinguish various heating systems employed on the mould.

5 Classify different types of ejection systems.

6 Describe different types of feeding systems employed on transfer mould.



SECTION-I

1 COMPRESSION MOLD 1.1Design of positive mould, Semi positive mould flash mould, hand moulds and single and multi cavity mould, Introductory knowledge of three plate mould.

1.2 shrinkage allowance and draft allowance 1.3 Standard components of compression mould&

typical designs 1.4 Cores and inserts 1.5 Calculations for depth of cavity and number of

cavities required 1.6 Ejector system selection & location.

14 15

2 TRANSFER MOLD 2.1 Design of integral pot and auxiliary ram type moulds. 2.2. Typical Design of standard moulds part like transfer Pot, transfer plunger, Sprue bush, Runner and Gate. 2.3 Types of Sprue and gate. 2.4. Gating systems employed in transfer moulds&

balanced runner systems.

2.5 Simple calculations for transfer pot, transfer plunger,

transfer pressure,

2.6.Mould for article with undercuts & split mould

actuation techniques. Mould with side core

18 15

3 MOULD HEATING: 3.1 Steam Heating 3.2 Thermic Fluid Heating 3.3 Electrical heating & resistance ,capacitance & inductance heating 3.4 Types of heater.

16 20

TOTAL 48 50

SECTION -II

4. MOLD DESIGN : Practices:

1.Compression moulds for simple articles consisting of

assembly and detail of drawings.(Two Sheets)

2.Multi Cavity mould 3. Mould with side core 4.Moulds for article incorporating inserts 5.split moulds 6.Three plate mould 7. Transfer mould integral pot and or auxiliary ram type

64 50


1. Shall comprise of design and drawings of moulds & its components.

At least six exercises given to student to draw in the class.

Practical Examination shall consist of an oral based-on the theory and term work.

Teaching Plan.

8. REFERENCE BOOKS:

Sr.

No.



1 J.H. Dubois Plastic Mould

Engineering 1st 1965 Van Naslrnad Reinhold Company, New York.

2

LaszlaSors &

Imrblaze

Plastic Mould

Engineering

2nd 1989

Headinton Hill Han

Oxford, 4&5 Fitzroy

square London WI

3

Herbert Rees Mold Engineering 2nd 1994

Hanser Publishers,

Munich,

4 Herbert Rees Design calculation for compression mould

2000 Machinery publications, Yellow series,UK




1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30

4.2.COURSE DETAILS:-


Duration: 16 weeks

Course: # Hydraulic Pneumatics & System Control Code: 160510





duration &

marks


L/Pr/Cr


03 02 05 03 100 30 70 50@ 50** 200 325

3. OBJECTIVE: In a position to study functions of various components.

In a position to select appropriate components.

In a position to study relative merits and demerits of the components.

In a position to design the circuit

4. COURES OUTCOMES:

1 Draw Symbol used in Hydraulic & Pneumatic System

2 Distinguish the difference between Hydraulic & Pneumatic System,

electromechanical valve & servo valve.

3 In a position to Understand electrical control component and touch screen

programme.

4 Identify and apply the basic properties of mass, specific gravity, and density.

5 Classify the valve used in hydraulic system.

6 Develop efficient Hydraulic Circuit



SECTION-I

1 Fluid mechanics

3.1.Fluid properties: such as density mass density,

weight density, viscosity, surface tension ,

capillary, compressibilty,vapour pressure.

3.2.Fluid Pressure: Pascal’s law, concepts of static

pressure, pressure head, total pressure,

atmospheric pressure, absolute pressure and

gauge pressure. Measurement of flow pressure

& flow pressure drop, positive and negative

pressure.peizometer tube, simple and

differential manometer.

3.3. Flow of fluid :Laminar and turbulent flow,

critical velocity , energies of flowing fluid,

Bernoulli’s theorem and application.fluid tubes,

connector &other fittings.

8 18

2 Basic of Pneumatics :

1.1 define valve , types of valve, direction control

valve, pressure and flow control valve

1.2 advantage and limitation of pneumatic systems,

pneumatic circuit element

1.3 Types of compressor & selection , FRL unit

1.4 Linear actuator ( single & double)

1.5 Air Motor.

6 12

3 Oil Hydraulics :-

1.1 hydraulic circuit element & symbol

1.2 Pumps and types (Vane pumps, piston pumps,

gear pumps)

1.3 Pressure control valve, Flow control valve,

directional control valve

1.4 Linear actuator, Rotary actuator & its type

1.5 Oil seal & types , reservoir construction and

accessories

1.6 Simple Hydraulic circuits & sequential circuit,

counter balanced circuit , meter in, meter out

and bleed off circuit

10 20

TOTAL 24 50

SECTION-II

4 Advance Hydraulic valve:

1.1 Solenoid valve, on off solenoid valve with

spool control, non feedback proportional valve

1.2 Servo valve, digitally control servo valve.

1.3 Control valves, closed loop proportional valves.

08 16

5 1.1 Torque motor, nozzle and flapper assembly,

main stage assembly,

1.2 Amplifier, ramp modules,

1.3 Transducers and types of transducers

06 12

6 Advanced control techniques

1.1 Position, velocity and acceleration, derivatives

and integrals

1.2 (P+ D) Proportional + derivatives control, PI &

PID control

1.3 Programmable logic controller, basic

component of PLC control

1.4 Human Machine Interfacing and interfacing

device, touch screen.

10 22

TOTAL 24 50


1) Study of various pneumatic circuit elements

2) Study of various pneumatic circuits

3) Study of various hydraulic circuit elements

4) Study of hydraulic circuit

5) Study of different types of pneumatics valve & its operation

6) Study of different types of Hydraulic valve & its operation

7) Study of FRL units

8) Study of fundamentals & closed loop mechanism

9) Study of PI, PD & PID controller


1. Demonstration Practical will be performing in the plastics laboratory as per the schedule

2. Practical Examination: shall consist of an oral based on the term work.

3. Teaching plan

8. REFERENCE BOOKS:

Sr.

No.


Publication

Publishers &

Address

1 Manual Of Sperry Vickers 8th 1974 Speey rand

corporation troy

Michigan.

2 S.R.

Mahajan

Oil hydraulics

system(Principal &

Maintenance)

8th 2005 Tata Mc graw Hill

3 R.K .

Bansal

Fluid Mechanics &

Hydraulics

2001

4 S.R.

Mahajan

Pneumatics system(Principal

& Maintenance)

14th 2005 Tata Mc graw Hill




1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total 50 50 30



Duration: 16 weeks

Course: Polymer composite, Blends and alloy Code: 160511





duration &

marks


L/Pr/Cr


3 - - 1 4 1 3 100 30 70 25@ 50** -- 175 314


1. To provide the knowledge of need of new blends.

2.To get latest information about new polymer blends.

3.To learn how to design polymer blends

4. To study the basic manufacturing process of polymer blends and alloys

5 To be aware with recycling of plastics,& manufacturing , testing of composites.

4. COURES OUTCOMES:

1 Understand how to do literature survey for new blends/alloys.

2 Able to understand designing of new blends

3 Preparation &testing of blends/alloys

4 Manufacturing of composites and their testing.

5 Define understand apply and calculate laws of simple lifting machine.



SECTION-I

1 1.0 Types of polymers:Homopolymer

1.1 Copolymer Block copolymer, Graf copolymer,

Inter- Penetrating polymers

06 10

2 2.Polymer alloys

2.1 Definition

2.2 Morphology of blends, compatibility of

polymers, thumb rule to design the new blends.

2.3 Testing of miscibility, compatibility & its

characteristics Polymer-polymer combination

technology

2.4 Method of incorporation and mixing Types of

alloys available properties and applications

08 20

3 3.0 Polymer blends: 3.1 Definition 3.2 Method of mixing and incorporation 3.3 Types of blends available properties 3.4 Processing 3.5 Latest commercial polymers blends & alloy

10 20

TOTAL 24 50

SECTION –II

4 Composites:

4.1 Raw Materials : Resins and polymer systems

reinforcing agents, filles, types of fibres & other

additives

4.2 Processing Methods : Hand layup, spray lay-up

techniques, bag moulding process Matched Die

4.3 Moulding, pultrusion, Filament winding,

Injection moulding

4.4 Designing Design concepts, sandwich

4.5 construction, joining and machining techniques

Compositions: SMC. DMC, TMC, XMC etc

08 20

5 Testing of Composite: (Mechanical Testing) 04 08

6 Conducting and magnetic polymer composites 04 06

7 Ceramic based composites 04 06

8 Recycling of polymers 02 06

9 Introduction to recent advances 02 04

TOTAL 24 50


1.0 The subject shall be taught using proper sketches and studying

the basic properties of various polymers. Underlying thermodynamics

principles, basic definitions and thumb rules of design of various

blends and alloys shall be explained. Industrial applications of this

subject with respect to various sources, preparation/compounding of

various blends, alloys, composites, and their applications and

manufacturing techniques shall be explained to the students.

2.0 Lesson Plan

3.0 Teaching Plan

4.0 Tutorial

8. REFERENCE BOOKS:

Sr.

No.



1 Literatures from Various companies

2 R.P. Singh

L.K. Das

S.K. Mustafi Polymer Alloy and

blend

1st 1998 Champman Hall New

York

3 C.P. Rader

B.W. Walker

Handbook of

Thermoplastics

Elastomer

1st 1993 Van Nostrand Reinhold,

New York

4 M.J. Folkes Polymer Blends &

Alloys,

1st 1993 Blackie Academic and

Professional Champman

and hall

5 John V.

Milewski

Harry S. Katz

Handbook of

Reinforcements

1st 1987 Van Nostpand Reinhold,

New York


Que.

No.



1 Any 6 out of 8

( 3 marks each)

18 Any 4 out of 5

(5 marks each)

16

2 Any 4 out of 6

( 4 marks each)

16 Any 1 out of 2

(6 marks each)

06

3 Any 2 out of 3

( 8 marks each)

16 Any 1 out of 2

(8 marks each)

08

4 Any 6 out of 8

(3 marks each)

18

5 Any 4 out of 6

(4 marks each)

16

6 Any 2out of 3

(3 marks each)

16

TOTAL 50 50 30

1. COURSE DETAILS:-

Program: ALL Semester: IV

Duration: 16 weeks

Course: # Plastics Product Design and Testing Code: 160512





duration &

marks


L/Pr/Cr


4 2 - - 6 1 3 100 30 70 50@ 50** - 200 426


1. To provide basic understanding of mechanical, electrical, thermal & flow properties of

Plastics.

2. To explain optical properties, density and specific gravity

3. To explain designing of Injection, blow, extrusion moulding Plastics parts.

4. COURES OUTCOMES:

1 Define and describe the Various Plastics Testing

2 Understand the Mechanical tests, Electrical tests, thermal tests, melt flow index tests

3 Select a proper test equipment to carry out test for particular application.

4 Analyse various properties of plastics.

5 Evaluate various properties of Plastics

6 Design Plastic Products.



SECTION-I

1 1.0 Testing

1.1 Importance of testing

1 .2 Specifications and standards

1.3 Sample preparation and conditioning of samples

.

01 02

2 .2.0 Mechanical tests:

2.1 Tensile properties and test method

2.2 Flexural properties and test method

2.3 Creep property and creep test

2.4 Fatigue test

2.5 Izod impact, charpy impact and tensile impact

tests

2.6 Testing of plastics films & dart impact

2.7 Hardness test shore hardness and Rockwell

hardness

2.8 Abrasion resistance

10 18

3 3.0 Electrical tests:

3.1 Insulation resistance

3.2 Volume resistivity

3.3 Surface resistivity

3.4 Breakdown voltage

3.5 Dielectric strength& dielectric constant and power

factor

3.6 Electrostatic properties, elementary ideas only.

3.7 Arc resistance.

03 06

4 4.0 Thermal tests:

4. 1 Thermal conductivity

4.2 Thermal analysis of polymeric material

4.2.1 Dielectric analyser, TGA, DTA, DSC, procedure

&applications.

4.3 Specific heat and latent heat

4.4 Vicat softening point

4.5 Heat distortion temperature

4.6 Flammability test

12 12

5 5.0 Flow properties & Physical properties.

5.1 Melt flow index & for thermoplastics

5.2 Cup method & for thermoset

5.3 Specific gravity

5.4 Bulk density & bulk factor

5.5 Environmental stress cracking

5.6 Weathering properties

06 12

5.7 Toxicity

5.8 Chemical resistance

5.10 Optical properties:

5.10.1 Refractive index

5.10.2 Percentage gloss

5.10..3 Clarity

TOTAL 32 50

SECTION II

6 6. Design of Injection moulding Plastic Part

6.1 Material selection

6.2 Polymer Flow behaviour in injection moulds:

How plastic fill a mould, viscoelastic behaviour,

Melt shear viscosity, shear thinning behaviour,

shear rate distribution, melt flow length, stress

concentration.

6.3 Structural design consideration:

Design methodology, Beams, Plates, shells and

pressure vessels, Torsion, Columns. Ribs.

6.4 Press fit Assemblies of Plastics Parts:

Material considerations, Design of press fit

assemblies,

6.5 Snap fit assemblies: Types of snap joints,

moulding cantilever snaps, design of snap joints.

25 40

7 7 Design of blow moulding and extrusion

moulding Plastic part.

Selection of material,

Design considerations.

Design the Plastic product using CAD software.

07 10

Total 32 50


1. To determine Tensile strength & percentage of elongation of plastics materials.

2. To evaluate Hardness of plastics

3. To Determine Flexural strength of plastics

4. To Determine Izod impact strength of plastics.

5. To Determine Abrasion resistance of plastics

6. To Determine Environmental stress cracking resistance of plastics material

7. To Determine Cross breaking strength of plastics.

8. To Determine Specific Gravity and Density of plastics.

9. To Determine Melt flow Index polymeric material

10. To Determine Heat distortion temperature of plastics.

11. To Determine Dart impact strength of plastics film.

12. To Determine Rebound Resilience of rubber.

13. Design of Plastic Part using CAD software.


More stress to be given for the test procedures and specifications and only very

Elementary treatment need be done regarding significance and designing for tests.

Practical Examination: Shall consist of testing of plastics listed above along with an oral.

2. Lesson plan

3. Teaching Plan

8.REFERENCE BOOKS:

Sr.

No.

Author Title Year of

Publication

Publishers &

Address

1 R.D Beck Plastics Product Design Van Nostrand

Reinhold Co

2 R.J.Crawford,

Pergamon

Press

Plastics Engineering

3 Robert A. Malloy Plastic Part Design for

Injection Moulding

1994 Hanser Pub.,

MunichViennaNY,

4 Shah Plastics: Testing

technology – HB

Sci-tech

5 Brown Testing of Plastics Sci-tech

6 C. Hylton Understanding Plastic

Testing

2012 Hanser Pub.,

MunichViennaNY,

7 Jay

Shoemaker(Ed)

Mold flow Design Guide Hanser




1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30

1. COURSE DETAILS:-


Duration: 16 weeks

Course: Elastomer Technology Code: 160513

Group: A Optional




duration &

marks


L/Pr/Cr


3 - - 1 4 01 03 100 30 70 25@ - 25** 150 314


3. OBJECTIVES:

The student will be able to

1) To select suitable material, process, manufacture & test rubber products. 2) Understand procedures for converting raw rubber into finished rubber products,

procedure for vulcanization, compounding and processing also procedure for testing products as per standards. Principle of vulcanization, mixing and compounding, reinforcement, blending, processing.

3) Understand manufacturing, processing, properties and applications of TPE. 4. COURES OUTCOMES:

1 Define natural rubber, vulcanization, TPE.

2 Distinguish between synthetic rubber & natural rubber, TPE & plastics, latex rubber.

3 Prepare dry rubber products by using various different molding techniques & Dunlop Talalay process, dipping process resp.

4 Illustrate types of vulcanization, compounding of rubber construction of tyre, latex allergies

5 Appraise the imp. Of sulphur vulcanization accelerator actuator in processing of

rubber.

6 Choose appropriate compounding ingredients for processing rubber, TPE, Latex &

tyre



SECTION-I

1 1.0 Molecular requirements of rubbery materials. 1.1 Stages in raw rubber 1.2 Different types of rubbers, their chemical structure, preparation, Properties & applications. Such as:- ethylene rubber, butadiene rubber, butyl rubber, EPDM, EPM, SBR, NBR, chloroprene rubber, isoprene rubber, silicon rubber etc

06 15

2 Vulcanisation of rubber

9. Sulphur vulcanization, peroxide

vulcanization, resin vulcanization,

metal oxide vulcanization, electron

beam vulcanization

10. Study of accelerator, activators,

catalyst, free radicals.

08 15

3 3.0 Compounding of rubber

3.1 Study of compounding ingredients:-

Vulcanizing agents, Stabilizers, Processing

additives, fillers, fire retardants, anti-oxidative

agents, accelerator, activator etc,

05 10

4 4.0 Processing of Rubber 4.1 Injection molding, extrusion, blow molding, thermoforming, calendaring, spinning, 4.2 Dry Rubber Products: Manufacturing and properties of different components of Footwear, Tennis balls, Golf ball, Seals and gaskets, etc

05 10

TOTAL 24 50

SECTION -II

05 5.0 Tyre technology:-

5.1 Introduction to tyre, nomenclature of tyres, function

of tyres and their components, construction of tyres,

function of the tyre components 5.2 Types of tyre of

tyres; as per their tread pattern, Construction (Beltings),

Application and others.

5.3 Intelligent or smart tyres, Eco-friendly tyres, Solid

tyres.

5.4 Manufacturing Techniques of Various tyres and

Automotive tubes & belts.

06 10

06 6.0 Latex Product Manufacturing:

6.1 Introduction, compounding, Manufacturing,

properties and formulation of Household and

surgical gloves, electrical gloves, Coir Foam and

08 15

Mattresses,

6.2 Latex thread, Latex toys and balloons.

6.3 Talalay process for Latex foam manufacturing

6.4 Latex allergies.

07 7.0 Introduction to Thermoplastic Elastomer

7.1 Styrenic Thermoplastic Elastomer Structure,

production, morphology, properties, compounding,

applications

7.2 Thermoplastic Polyolefin elastomers

Preparation, properties, compounding, processing

and applications.

7.3 Co polyester TPE Properties & application

7.4 Thermoplastic-polyurethane-elstomer

Chemistry Preparation of TPU, structure, properties

Processing and applications

7.5 Polyamide TPE

10 25

TOTAL 24 50


1) Lesson plan

2) Teaching plan

3) Tutorial

Classroom Teaching: - Review: Related topics from previously taught subjects. Use of

multimedia, Charts, models, transparencies, learning materials.

Library: - Referring to books, journals, manuals

Exercise: - Collection of specifications of various elastomeric materials, products,

specifications, manufacturing methods, storage, testing, vulcanization, compounding etc,

Industry: - Elastomer industry, Study of various processes, Faults and remedies.

7. REFERENCE BOOKS:

Sr.no Title Author Publication

1

Rubber Product Manufacturing

Technology

A K Bhowmik, M M Hall

and H A Benaney

Marcel Dekker Inc,

Newyork, 1994

2 Rubber Technology A S Chraig, Oliver, Boyd Edinburgh, 1982

3 Rubber Technology Handbook C.Hoffman Hanser Pub

4 Synthetic rubber Chemistry & Technology D.C.Blakley

Applied science

Publishers, 1979

5 Hose Technology C W Evans Elsevier Applied Science Publisher, 1979

6

Handbook of Elastomers, new

developments and technology

A K Bhowmik, H L

Stephens

Marcel Dekker Inc.,

Newyork, 1988

7 Thermoplastics Elastomer Holder Hanser Publication







4. - - Any 6 out of 8 18 - -

5. - - Any 4 out of 6 16 - -

6. - - Any 2 out of 3 16 - -

Total - 50 - 50 - 30

1. COURSE DETAILS:-


Duration: 16 weeks

Course: Additives & Compounding of Plastics Code: 160514

Group: A Optional




duration &

marks


L/Pr/Cr


03 1 04 01 03 100 30 70 25@ 125 314

2 COURSE OBJECTIVE: The knowledge of Polymers, additives, and methods of mixing and compounding

(formulation) will help the student to produce different plastic products having the desired

properties

4. COURES OUTCOMES:

C205.1 Explain Need Of compounding

C205.2 Prepare Selection of Ingredient

C 205.3 Distinguish Strength and weakness of polymer

C205.4 Categorise appropriate selection of compounding techniques.

C205.5 Effect of Ingredients on the life cycle of polymer.

C205.6 Structure/Property relationship.



SECTION-I

1 1.0 Introduction to Compounding

1.1 Definition-Compounding/mixing

1.2 Need of compounding

1.3 Types of compounding

1.4 Advantages/Drawbacks of Polymers

06 12

2 2.0 0Additives for plastics

2.1 Fillers types, Organic and Inorganic

2.2 Plasticisers-Definition types

2.3 Lubricants

2.4 Impact modifiers

2.5 Colorants-pigments, Dyes

2.6 Fire retardants

2.7 Coupling Agents

2.8 Blowing Agents-CBA,PBA

2.9 UV Stabilisers

2.10 Thermal stabilizers

2.11 Antistatic agents

2.12 Antiblocking agents

2.13 Slip and antislip agent

2.14 Processing aids

2.15 Mould releasing agents

12 23

3 Compounding

3.1Selection of Polymer

3.2Compounding ingredients-general objectives

3.3Limitations of additives into polymer

3.4materials

3.5Selection of mixing and mixing equipment’s.

3.6Effect of mixing/Compounding parameters

06 15

TOTAL 24 50

SECTION-II

4 Compounding of PP

3.0 Compounded PP products, the Compounding

process-Additives, fillers,(Organic/Inorganic,

Reinforcing agents(fibres, additives

3.1Compounding Technology

3.2 Intensive/Dispersive mixing.

Extensive/Convective mixing

3.3 Single screw Extruder

3.4 Rotating/Continuous reciprocating single screw

extruder

3.5 Fully intermeshing co rotating twin screw

extruder

14 26

3.6 High Intensity internal mixer3.7 Filled and

Reinforced PP, Calcium carbonate filled PP, Talc

filled, PP, Mica filled PP, Wallastonite reinforced

PP, Glass fibre reinforced, PP, Wood /PP

Composites, PP-Nano Composites, Nano filler,

preparation, Nano filler dispersion, Other speciality

product flame retardant PP, High melt strength, Eco

Balance and Recycling, Life cycle analysis, Energy

recovery recycling

5 PVC Compounding

5.0Selection of grades of PVC for particular

compound

5.1 Physical and chemical properties of PVC5.2

Various ingredients for PVC compounding5.3

Formulations-Hose, Wire, cable, sheet,gasket,O-

seals,soles.flexible5.4 pipe, rigid

pipe,valves,transparent pipe5.6 Selecting

Compounding processes and machines5.7 Effect of

process/parameters.

10 24

TOTAL 24 50

6. IMPLEMENTATION STRATEGY (PLANNING) Teaching Plan Lesson Plan Tutorials Assignment-Collection of samples, specification of product, various type of recipes of various

product, Collection of ingredients, specifications, by using internal, other media.

REFERENCE BOOKS:







4. - - Any 6 out of 8 18 - -

5. - - Any 4 out of 6 16 - -

6. - - Any 2 out of 3 16 - -

Total - 50 - 50 - 30

Serial Author Title Edition Year of Publisher s and

Number Publication Address

1.

Shri A.S

Athalye PVC Technology Tata Mcgraw 1991

Hill Publication

New Delhi

2. J.A.Brydson Plastic Materials 17th edition 1999 Butterworth,London

3. Gowarikar Polymer Science 18th Edition 2001 New age

4. Encyclopedia Plastics Materials

5. Encyclopedia

Plastics

Materials.Volume-2 - - --

6 H. Wildi

Understanding of

Compounding 2 2012 Hanser Publication

7.

George

Menges

Material Science

of Polymers 2nd 2012 Hanser Publication

1. COURSE DETAILS:-


Duration: 16 weeks

Course: # CAD,CAM,CIM Code: 160515

Group: A* Elective




duration &

marks


L/Pr/Cr


2 3 05 01 03 100 30 70 50@ 50** 200 235


A student having knowledge of WINDOWS 98 / 2000 / XP / VISTA plus have a basic

understanding of computer operation and fundamental drafting skill is expected to produce

technical drawing using graphic tools

4. COURES OUTCOMES:

1 Understand about graphic hardware

2 Draw object using AUTOCAD

3 Study the interfacing of CAD, CAM & CIM.

4 Develop the skill in AUTO LISP programming

5 Demonstrate design of part using CAD



SECTION-I

1 1.0 Overview and graphics hardware :

1.1 L/P options, mice/mouse. Digitisers, trackball,

joystick display options.

1.2 O/P options, printers and plotters.

02 12

2 2.0 Fundamentals of Auto CAD

2.1Familiarization of commands of drawing editor.

2.2 use of cursor

2.3selections of menus.

03 14

3 3.0 Creating a drawing, setting up work areas

3.1 Creating symbols.

3.2 organizing information with layers.

06 12

4 4.0 Hard copy of drawing on printer and / or plotter 05 12

TOTAL 16 50

SECTION-II

5 5.0 Labelling and dimensioning of drawing 01 06

6 6.0 Tracing a drawing using tables

6.1 Drawing curves and solid areas. 03 08

7 7.0 Introduction CAD/CAM/CIM need for

CAD/CAM/CIM

7.1 Hardware requirement for cad system software

requirements.

7.2 Computer application in engineering, basic

concepts of

automation & robotics, elementary idea of computer

integrated

production management system used for quality

inspection/

quality monitoring, planning functions, resource

planning etc.

06 15

8 8.0 Graphic packages CAD, interfacing

8.1 Programs to link the analytical package of graphic

utilities.

02 07

9 9.0 Auto Lisp programming and customisation 04 14

TOTAL 16 50


1. OSHAP: Held, Centre, Endpoint, insert, intersect, MID point, NEA rest, HOPe, PER pendicular,

Tangent, CANCEL, REDO, Redraw

2. SETUP: Defining drawing scale.

3. BLOCKS : Attdef, Base, Block, Insert, MINSERT, Wblock

4. DISPLAY : Attdisp, D view, pan, plan, Redraw, Redrawall, Regen, Regenall, Regen auto, View,

Viewers, V point, Zoom.

5. EDIT : Array, Attedit, Break, Chamber, Change, Chaprop, Copy, Divide, Erase, Explode, Extend,

Fillet, Measure, Mirror, Move, Pedit, Rotate, Select, Scale, Stretch, Trim.

6. INQUIRY : Area, Dist, Help, Id, List, Status, Time.

7. LAYER : a) SETTINGS : Aperture, Axis, Blips, Colour , Drag mode, Elev, Grid, Line type,

Limits, Ltscale, Otext, Snap, Style, Vports.

8. PLOT : Plotter Printer

9. DIM : Dim, Diml, Linear, angular, diameter, radius, center, leader, Di, vars, redraw, status, undo.

10. DRAW : Arc, Attdf, Circle, Domit, D text, Ellipse, Hatch, Insert, Line, MINSERT, Offset, File,

polygon, shape, sketch, solid, Text, Bdline, Bdface.

11. UTILITY: ATTEX, Files, Rename, Script,Menu,Purge Script, SLIDES. (Mslide, Vslide)

External

commands(i.e.DEL,EDIT,SHELL,TYPE) End, Quit.

12. 3D:Edgesurf, Revsurf, Rule surf, 3Dline,3D face, 3D mesh, 3D poly, 3D objects.

13. AUTOLISP:Create*LSP file for formulas and application prog,

14. Customization : Create Menus & Macros using *MNU files.


The theory / Practicals will be based on the latest available AutoCAD package in the department. The

fundamentals will be covered

referring the installed version of Software utility.

i) Teaching Plan

ii) Lesson Plan

iii) Assignments

8. REFERENCE BOOKS:

Sr.

No.


Publication

Publishers

& Address

1 D.Raker,

and H.Rice

Inside AUTOCAD

2 G.B.

Prabhat.

An Introduction to

CAD/CAM

3 Y.I.Shah &

C. Patel

Programming in

AUTOLISP

4 George

Omura

Mastering AUTOCAD B.P.B.

Publication,

New

Delhi







4. - - Any 6 out of 8 18 - -

5. - - Any 4 out of 6 16 - -

6. - - Any 2 out of 3 16 - -

Total - 50 - 50 - 30



Duration: 16 weeks

Subject: #Metrology & Quality Control Code: 160509

Group: A* Elective




duration &

marks


L/Pr/Cr


3 2 - - 5 1 3 100 30 70 50@ 50** 200 325

3. OBJECTIVES:

1. To provide basic understanding of construction, working and use of different

Instruments.

2. To Explain different statistical quality control tools used to improve quality of

Product.

3. To provide basic understanding of design of mechanical measurement systems, design

And drawing of mechanical component.

4. COURES OUTCOMES:

1 Describe construction, working and use of different measuring instrument. 2 Understand different statistical control tool used to improve quality of product. 3 Select appropriate instrument for specific measurement. 4 Analysis, interpretation and drawing conclusions from the data, information,

graphs, charts, pertaining to the area of inspection and quality control.

5 Measure flatness, roundness, diameter, angle, taper of work piece.



SECTION-I

1 Introduction To Metrology and Standards of

measurements

1.1 Definition of metrology,categories of metrology,

Scientific metrology, Industrial metrology, Legal

metrology

1.2 Need of inspection

1.3 Concepts of precision, Accuracy,

Sensitivity, Readability, Calibration, traceability,

Reproducibility

1.4 Sources of errors , Factors affecting accuracy

,Selection of instruments, Precautions while using

instruments for

getting higher precision and accuracy.

1.5Definition and introduction and comparison line

standard, End standard and wavelength standard.

Comparison.

1.6 slip gauge and its accessories, Length Bars

03 04

2 2.0 Comparators

2.1 Definition ,requirements of a good comparator

2.2 Working principles of comparators, Use of

comparators

Dial indicator, Johansson mikrokator, Sigma

comparator,

Pneumatic comparator, Electrical, Electronics

comparators

2.3 Advantages and disadvantages

05 12

3 3.0 Angle measuring Instruments

3.1 Concept of angle measurement ,Instruments for

angle

measurement

3.2 working and use of Bevel protractor, Sine bar,

spirit

level, Sine centre, clinometers, angle gauges,

Autocollimator

04 08

4 4.0 Limits, Fits, Tolerances and limit Gauges

4.1 Concept of limits, Fits, Tolerances.

4.2 Interchange ability and selective assembly

4.3 Hole and shaft basis system.

4.4 Taylor’s principle of gauge design.

4.5 Design of plug and ring gauges

02 06

5 5.0 screw thread measurements

5.1 Errors in threads, pitch errors

5.2 Measurements of elements such as major

diameter.

05 10

Minor diameter, effective diameter , pitch and angle

for

external threads.(Two wire method, three wire

method,

thread micrometer, floating carriage micrometer)

6 6.0 Measurement of Geometrical features

&surface

finish

6.1Testing straightness Wedge method, Use of spirit

level

and autocollimator.

6.2 Testing flatness Use of spirit

level/autocollimator,Use

of optical flat

6.3 Squareness testing Indicator method use of optical

square

6.4 Toolmakersmicroscope

6.5 profile projector

6.6 Primary and secondary texture,sampling

08 05

length,Lay,CLA,Ra,RMS,Rz values and their

interpretation.

6.7 Various techniques of qualitative analysis,working

principle of stylus probe instruments such as

Tomlinson

surface mete

05 10

TOTAL 24 50

SECTION II

7 7.0 Quality control

7.1 Meaning of quality, quality control

7.2 Inspection stages ,comparison between inspection

and

quality control,

7.3 Meaning of quality of design quality of

conformance, quality of performance ,factors

affecting them,

7.4 cost of quality, value of quality, optimum quality

of design

7.5 concept of reliability

7.6 quality assurance

7.7 vendor ratings, vendor quality ratings

04 08

8 8.0 Total Quality Management

8.1 Principles of TQM- customer focus ,commitment

by top

management ,continuous improvement PDCA, quality

circles, employee empowerment (JIDOKA)

8.2 Quality audit concept of audit practices, lead

05 10

assessor

certification

8.3 Six sigma- statistical meaning, methodology of

system

improvement,DMAIC cycle ,yellow belt, green belt,

black

belt certification.

9 9.0 Statistical quality control

9.1 Meaning and importance of SQC.

9.2 Variable and attribute measurements, chance and

Assignable causes variation. 9.3 Frequency

Histogram,

Polygon, bar chart.

9.4 Normal distribution curve- characteristics uses

process

capability capable and incapable process possible

relations of

process in control with USL and LSL, Cp, Cpk

9.5 Control chart for variables X and R chart

(calculation of

trial control limits , revised control limits

,interpretation and

conclusion)

9.6 control chart for attributes-p chart, np chart, c

chart

(calculation of trial control limits, revised control

limits,

Interpretation and conclusion)

9.7 Pareto analysis, cause and effect diagram, scatter

Diagram

12 24

10 10.0 Acceptance sampling

10.1 Concept, comparison with 100% inspection

10.2 Types of sampling plans merits and demerits

10.3 Operating characteristics curve importance

significance

producers risk consumer risk AQL, IQL, LTPD,

AOQL

03 08

Total 24 50


1. Study and use of Vernier caliper & screw micrometer.

2. Study and use of Vernier height gauge & Depth micrometer.

3. Study and use of Inside micrometer

4. Study and use of mechanical comparator (Dial indicator).

5. Study and use of dial micrometer

6. Study and use of dial bore gauge

7. Study and use of Bevel protractor

8. Study and use of Sine bar

9. To find major diameter ,minor diameter ,pitch and angle of thread on toolmakers

microscope

10. Study of screw pitch micrometer.

11. Use of optical flat to inspect flatness of slip gauges

12. Quality control by statistical `methods .plotting the charts from given data.

(a) Frequency Histogram

(b) Normal distribution curve

(c) Control chart for average and range

(d) Control chart for fraction defectives

(e) Control chart for number of defectives

8. IMPLEMENTION STRATEGY (PLANNING): In depth study and understanding of the subject will be implemented by adopting the

Following strategy

(i) Lesson plan

(ii) Use of charts, models and transparencies

(v) Use of actual devices

9. REFERENCE BOOKS:

Sr.

No.


Publication

Publishers &

Address

1 R.K Jain Engineering metrology XII 2005 Khanna

publishers,2B,Nath

market,

new delhi-06

2 I.C Gupta Engineering metrology XII 2002 Dhanpat rai and

sons 1682 nai

sarak new delhi- 06

3 M.S Mahajan Statistical quality

control XVI 2002 Dhanpat rai and

sons 1682 nai

sarak new delhi- 06

4

Grant

Leavenworth

Statistical quality

control

II

1998 Tata Mc graw hill

book co

singapore

5 J.M.Juran Quality planning and

analysis III 1995 Tata Mc graw

hill,4/12 asaf ali

road

new delhi

6 Besterfield,Dale.H Total quality

management III Prentice hall , new

delhi







4. - - Any 6 out of 8 18 - -

5. - - Any 4 out of 6 16 - -

6. - - Any 2 out of 3 16 - -

Total - 50 - 50 - 30

Sr. No. Course Name and Code Scheme of Instructions


Theory Paper

duration and

marks

Scheme of Examination Gr Scheme

L/Pr/CR


5.1 #Design of Moulds & Dies(160517) 3 - 4 - 7 04 100 30 70 50@ 50** 200 A* 347

5.2 #Processing of Plastic (160518) 3 2 - - 5 03 100 30 70 50@ 50** -- 200 A* 325

5.3 #Plastic Plants Equipments

(160519)3 2 - 1 6 03 100 30 70 50@ 50** 200 A* 336

5.4 #Project (160522) 6 - - 6 - 50@ 50** 100 A* 066

5.5 Plastic in Packaging (160520) 3 2 - - 5 03 100 30 70 25@ 25** 150 A 325

5.6 Environmental Science & Plastic Waste Disposal

Management (160521)3 2 5 03 100 30 70 50@ - 150 A* 325

5.7 Fabrication of Moulds & Dies

(160516)

2 3 - - 5 03 100 30 70 50@ - 50** 200 A 235

# Elective Subjects (any One)

5.8 Entrepreneurship Development

(160014)3 1 4 03 100 30 70 25@ 25** 150 M* 314

5.9 Production Management(160523) 3 - 1 4 03 100 30 70 25@ -

-

25** 150 M* 314

TOTAL 20 19 4 1 44 No. Of paper*=5 210 490 350 225 75 1350

TOTAL PERIODS =43 TOTAL MARKS = 1350




PROGRAMME: PLASTIC ENGINEERING

SEMESTER :V W.E.F Batch Admitted JUNE 2016

*Compulsory, ** Assessed by Internal Examiner and External Examiner jointly, @ Assessed by Internal Examiner only- ,# Award Winning Course, L-Lecture Period ,P-Practical period ,D-Drawing Practise ,T-Tutorial, Cr-Credit ,SSL-Sessional, TW-Term Work, PR- Practical , OR Oral ,,Gr- Group ,B-Basic ,C-Core ,A-Application ,M-Management.HOD PRINCIPAL


Program: Plastics Engineering Semester: V

Duration: 16 weeks

Course: # Design of Mould & Dies Code: 160517





duration &

marks


L/Pr/Cr


3 4 7 01 04 100 30 70 50@ 50** 200 347


To study different types of feeding system used in injection moulds.

Provide knowledge about different types of ejection mechanism.

To study the merits and demerits of hot runner system.

Understand various factors to be considered while designing

dies for extrusion.

To prepare salient features of blow mould

4. COURES OUTCOMES:

1 Draw different types of gates and runners

2 Explain hot runner molds

3 Understand the cooling line and feed system placing calculations

4 Draw mold design for spilt mold

5 Define parison controlling in blow moulding



SECTION-I

1 Injection Moulds Types and two plates and three plate moulds,

Ejection systems, cooling system, gating system,

venting and slug well systems, Design of size of

sprue, runners and gates. Sprue, lock and ejection of

sprue, runners and gates. Hand moulds and

automatic mould. Moulds for articles with

undercuts, split mould & types of actuation, Moulds

with side cores. Consideration in deciding upon the

parting line.Hot runner moulds and design

considerations.Elementary ideas of injection

moulds for thermosets including sheet Mould

compound and bulk moulding compound,1.9 Mould

economics & determination of number of cavities

and cost Estimation

16 20

2 2.0 Extrusion die design :

2.1 Control of flow properties and heater design

2.2 Design aspect of following extrusion dies:

2.2.1 Pipe dies & torpedo, mandrel, land length,

angle of entry

2.2.2 Sheet die & coat hanger and T-die & control of

thickness

2.2.3 Monofilament die & stretch ration and ultimate

thread size

2.2.4 Tape die

2.2.5 Profile die & elementary treatment

08 10

3 3.0 Blow moulds:

3.1 Die design for Parison control with PVC and PE

3.2 Design of simple blow moulds.

04 05

4 4.0 Fabrication:

4. 1 Materials for mould fabrication, heat and

surface treatment

4.2 Mould making machinery, hobbling, coy milling,

die sinking, jig boring, Pantograph, spark erosion,

electro forming etc

4.3 Details of the process, selection, tools and

accessories

4.4 Mould polishing

04 05

TOTAL 32 50

SECTION -II

5 MOULD DESIGN

Practices :

1. Consisting of two sheets showing assembly and

details of a simple injection mould.

2. Two different types of injection moulds from

mentioned above on three sheets.

3. One sheet on extrusion die from mentioned above.

4. one sheet 3D product design development using

AUTOCAD.

64 50

6. IMPLEMENTION STRATEGY (PLANNING): Practical Examination: (Oral based) Shall consist questions from theory and term work.

2. Lesson Plan

3. Teaching Plan

7. REFERENCE BOOKS:

Sr.

No.


Publication

Publishers &

Address

1 R.G. Pye Injection Mould Design 2nd 1978 George Godwin

Ltd., 2-4,

Cathezinest,

LondonWC-2

2 M.V. Joshi Dies for Plastic Extrusion 1st 1984 Rajkamal Electrical

Press, 4163,

Aryapura, Delhi.

3 Narbert M.

Bikales Moulding of Plastics 1st 1971 Division Of John

Willy & Sons New

York

4 Irvin Z.

Rubin Injection Moulding Theory

&

Practice

1st 1972 Division Of John

Willy & Sons New

York

5 Micheli Extrusion Dies For Plastics

& rubber 2nd 2011 Hanser Publication




1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30


Program: ALL Semester: V

Duration: 16 weeks

Course: #Processing Of Plastics Code: 160518





duration &

marks


L/Pr/Cr


03 02 05 01 03 100 30 70 50@ 50** 200 325


To study and to manufacture articles made by extrusion.

To study and to manufacture articles made by blow molding.

To study and to manufacture disposable articled made by thermoforming.

To study different types of decoration on plastics.

4. COURES OUTCOMES:

C205.1 Distinguish variant in extrusion molding techniques C205.2 Understand extrusion, calendaring, thermoforming, printing and welding processes. C 205.3 find out the molding faults and their causes and able to suggest the remedial action

for articals, profiles etc. C205.4 Apply the knowledge for manufacturing pipes, film ,wire ,monofilament, cable, sheet

etc. C205.5 Calculate the different process parameters. C205.6 Demonstrate the working of molding processes



SECTION-I

1 1.0 Extrusion: 1.1 Basic process & materials and

applications 1.2 Compounding and incorporation of

additives 1.3 Extrusion processes:

1.3.1 Pipe extrusion (plain, corrugated and reinforced pipes)

1.3.2 Blown film extrusion (monolayer and multilayer films, stretch film tapes)

1.3.3 Monofilament / Box strapping

1.3.4 Cable extrusion 1.3.5 Sheet extrusion 1.3.6 Cast film extrusion 1.3.7 BOPP and OPP films 1.3.8 Powder coating 1.3.9 Plastisol coating 1.3.10 Laminating & extrusion

laminating on paper, aluminium foil etc and adhesive lamination

1.3.11 Profile extrusion 1.4 Ram extrusion, The basic aspects to he

covered are typical extrusion conditions for special materials, sizing techniques, various process parameters affecting product quality. Start-up and shutdown procedures and trouble shooting.

18 30

2 2.0 Calendaring: 2.1 Basic process, materials and

applications 2.2 Processing conditions at various stages

of production 2.3 Process parameter and their effect on

product quality 2.4 Laminating and embossing 2.5 Troubleshooting, defects, causes and

remedies

06 20

Total 24 50

SECTION-II

3 3.0 Blow Moulding:

3.1 Basic process, materials and

applications

3.2 Types & injection, extrusion and

stretch blow moulding

3.3 Continuous and interrupted process

08 10

3.4 Process parameters and their effects on

product quality

3.5 Finishing operations for blow moulding

operations

3.6 Troubleshooting, defects, causes and

remedies

4 4.0 Thermoforming:

4.1 Basic process, materials and

applications

4.2 Plastic memory, hot elongation, hot

strength temperature

4.3 Methods of thermoforming & plug

assist forming, drape forming, reverse

draw forming and vacuum forming

4.4 Twin sheet forming

4.5 Various process parameters and their

effect on product quality

4.6 Advantages and limitation of

thermoforming

4.7 Trouble shooting

06 10

5 5.0 Fabrication with plastics:

5.1 Cementing and adhesive bonding

5.2 Welding process

5.3 Fabrication technique for chemical

vessels, tanks, pipe bends, sheets etc.

with special reference to PVC, PP;

HDPE, Acrylics and FRP

03 10

6 6.0 Finishing and machining plastics:

6.1 Finishing, filing, grinding, buffing,

drilling, turning, slitting, fastening etc

6.2 Effects of the above process on

Elasticity, Plastic memory,

Conductivity and softening point

02 08

7 7.0 Decorating with plastics:

7.1 Printing

7.2 Painting

7.3 Hot stamping

7.4 Foil inlays moulding

7.5 Vacuum metalizing

7.6 Electroplating

7.7 Dip coating

05 12

Total 24 50


1.Study & trial on Extruder.

2.Visit to calendaring plant. 3.Study and trial on blow moulding machine. 4.Study and trial on thermoforming machine.

5.Visit to Plastic Printing Plant


Wherever practical in institute is not possible visits are carried out to necessary industries.

Lesson Plan

Teaching Plan

8. REFERENCE BOOKS:

Sr.

No.


Publication

Publishers & Address

1 Rosato Extrusion Techniques 2nd 1998 Hanser New York

2 Fishcher Extrusion of Plastics 3rd 1976 Newmens Butter

Worths & Hobart,

London

3 Machine Manuals from

Different Components

4 SPI handbook 3rd 1980 Vanosard Publication

5

Encyclopedia of P.V.C

Marcell Dekker

London

6

Frados

Plastic Processing

Handbook

7 Chris rau Wendaal Polymer extrusion 2nd 2012 Hanser Publication

8 Norman C Lee Blow Moulding 2nd 2012 Hanser Publication




1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total

50 50 30



Duration: 16 weeks

Course: #Plastics Plants Equipments Code: 160519





duration &

marks


L/Pr/Cr


3 2 1 6 01 03 100 30 70 50@ 50** 200 336


To know different types Plastics processing equipment

Provide the basic knowledge of Injection ,blow moulding machine, compression press,

transfer moulding machines

To study different types of calendars, extruders,and their constructional design and features.

To study the specification of, extruder, injection, blow moulding machine.

To understand the construction and working of thermoforming machine.

To understand working of various plastic plants along with the auxiliary equipment.

4. COURES OUTCOMES:

1 Distinguish difference among plastics processing machines 2 Understand drive system and accessories require for various plants. 3 Explain faults in working of plastics molding plants 4 Apply the knowledge for understanding specification to buy the new machine 5 Demonstrate the working of molding machine 6 Assemble the different auxiliary equipment for different plants.



SECTION-I

Equipment’s for Extrusion: 1.1 Extruder & hopper, feeding mechanism, screw and barrel design thrust for bearing gate assembly (Screen pack, breaker plate and valves) 1.2 Extruder drives & types and selection, extruder output 1.3 Extruder types & single screw, twin screw and planetary extruders their 1.4 constructional features and applications. 1.5 Vented extruder 1.6 Mixing screws 1.7 Ram extruder & constructional features 1.7 Extrusion plants1.8 Pipe plants (plane and

corrugated pipe )1.9 Blown film plants (monolayer and multiplayer films, stretch film tapes and Shrink films) Orientation lines & (Monofilament, box strapping, BOPET and OPPET. films) Cast film lines 1.8 Cable and wire covering plants (inclusive of XLPE) 1.9 Extrusion coating and laminating lines 1.10 Sheeting plant (Monolayer and rnultilayer) 1.11 Section lines (Profiles) 1.12 Aspects to be covered arc plant layouts, ancillary in line equipment’s for sizing, take off, cut and plant safety.

16 25

Equipment for calendaring:2.1 Calendaring

plants and plant layout

2.2 Types of calendars

2.3 Calendar rolls & constructional and design

features, cast and drilled rolls,

2.4 Calendar drives & roll mounting, bearing and

lubrication


2.6 Safety devices

08 15

TOTAL 24 50

SECTION -II

Equipments for blow moulding machine:. 3.1 Extrusion blow moulding machines 3.2 injection blow moulding machines 3.3 Stretch blow moulding machines 3.4 Co-extrusion blow moulding 3.5 Drive details for intermittent blow moulding 3.6 Parison wall thickness control & accumulator units 3.7 Parison cutting devices 3.8 Hydraulic, pneumatic, electrical and electronic controls (Appraisal only) 3.9 Safety devices 3.10 Blow moulding plants 3.11 Hydraulic and pneumatic controls pertaining to

10 30

blow moulding equipments.

Equipments of thermoforming machine:

4.1 Single stage sheet feed mechanism

4.2 Multi-stage sheet feed mechanism

4.3 Continuous sheet forming lines

4.4 Elementary ideas about automation

14 20

TOTAL 24 50


Study of different parts & specifications of Extruders. Study of Pipe, sheet, wire, cable & blown film plants & auxiliary equipments.

Visit to pipe blown film, blow molding, wire & cable plants. Visit to calendaring and laminating plant. Study of specification of blow molding machine.

Study of Equipments for thermoforming machine. To find out faults in extrusion plant.


Wherever practicals in institute are not possible visits are carried out to necessary industries.

1)Lesson Plan

2) Teaching Plan

8. REFERENCE BOOKS:

Sr.

No.



1 Rosatto Manual of different

Machine manufacturing

company

2 R.A. Edlin, &

A.D.swan

Injection Blow

Moulding

1st 1987 C.B.S.Publication

3 Sidney levy James

calendaring of Plastics 1st 1971 Elite Book butter worth

group London.

4 James

L.Thorane

Plastics Extrusion

Technology

1st 1988 Henser New York


Que.

No.



1 Any 6 out of 8

( 3 marks each)

18 Any 4 out of 5

(5 marks each)

16

2 Any 4 out of 6

( 4 marks each)

16 Any 1 out of 2

(6 marks each)

06

3 Any 2 out of 3

( 8 marks each)

16 Any 1 out of 2

(8 marks each)

08

4 Any 6 out of 8

(3 marks each)

18

5 Any 4 out of 6

(4 marks each)

16

6 Any 2out of 3

(3 marks each)

16

TOTAL 50 50 30



Duration: 16 weeks

Subject: #Project Code: 160522





duration &

marks


L/Pr/Cr


- 6 - - 6 - - - - - 50@ 50** - 100 066

3. OBJECTIVES:

1. To provide basic knowledge about literature survey.

2. To provide understanding of Mechanics, Plastics engineering.

3. To Suggest feasible solutions from alternatives.

4. To guide for further need based related problems.

4. COURES OUTCOMES:

1 Recognize aim of project 2 Explain mechanics of project. 3 Compare and select feasible solution from alternatives generated problems. 4 Indentify, analyze and define the problems 5 Evaluate and compare feasibility and economics of selected problems 6 Design, develop, manufacture, assemble and operate equipment/models.

5. PROJECT WORK

The knowledge gained by studying various subjects separately utilized as a single task. A group

of maximum

04 students will have to work on assigned work. The topic could be on mold design, plastic plant

equipment, process development, mold manufacturing process, recent trouble shooting in

plastics processing, plastics testing, plastics recycling & waste management, plastics packaging,

advance development in plastics product, industrial sponsored project etc. The project work

involves experimental / theoretical / computational work.. It is expected to do necessary

literature survey by referring current journals, reference books, internet, E-library,

industry manuals belonging to plastics engineering.

PROJECT SELECTION

The department Head /Incharge/ Co-ordinator will form the balanced groups of maximum four

students per

group. The project groups are to form within first week of the beginning of academics semester

& faculty will assign as project guide to each group.

The project group should interact with the guide, who is turn advice the group in selecting a

project based on the group potential.

The project is to select & registered within two weeks on the group formation & a brief synopsis

of the project to be submitted to the HOD & guide. The synopsis should include project title,

aim, block diagram, list of components required, & brief working whichever necessary. The

students should make sure that all the

requisites are available in the local market. The group should work every week in the project

duration & appraise the guide about their work progress.

Guide should closely monitor the work & help the students from time to time. The guide should

also maintain a record of continuous assessment of project work progress on weekly basis.

The total work may perform as per the given schedule Week no.

Form the team 01

Selection of project & synopsis submission 02

Literature Survey 03-05

Procuring components, chemicals & testing 05-06

Experimental work/theoretical work 07-09

Trouble shooting 10-11

Calculation & result 11-12

Documentation 12

Primary project writing 12-13

Finalization of project work in all respect 13

Final print of project 14

Student can select any one problem/project work from following categories.

a) Literature survey based projects: Project related with collection tabulation, classification,

analysis &

presentation of the information. Topic selected must be related with latest technological

developments, and

should not be a part of diploma curriculum. Report should be of min 60 pages.

b) Industry sponsored projects- project related with solving the problems identified by industry

should be

selected. One person / engineer from industry is expected to work as co- guide along with guide

from

institution

c) Design & fabrication of mechanisms, machines, Moulds, etc. Report involving aspects of

designing &

fabricating should be prepared & submitted.

d) Maintenance based projects: The institute may have some machine/ equipment/ system which

are lying idle

due to lack of maintenance. Students may select the specific machines/equipment/system. Repair

it and bring

it to working condition. The systematic procedure for maintenance to be followed and the report

of the

activities are submitted.

e) Environmental management systems projects: Projects related with pollution control, Solid

waste management, plastics waste management, biodegradable polymers, etc, Working model or

case study should be undertaken.

n) Project can be selected other than the area specified above. Project should provide viable and

feasible solution to the problem identified. Report should be of min 50 pages.

Seminar Based on project topic

Every student will prepare & deliver the seminar. Evaluation of seminar will be carried out by

panel of at least

three teaching staff from Plastics engineering department.

1. Selection of topic for the seminar should be based on allotted project in consultation with

teacher guide

allotted for the batch to which student belongs.

2. Seminar report should be of min.10 & max. 20 pages & it should be certified by guide teacher

and head of

the department

3. For presentation of seminar and following guide lines are expected to be followed:-

a) Time for presentation of seminar: 7 to 10 minutes /student.

b) Time for question/answer: 2 to 3 minutes /student

c) Evaluation of seminar should be as follows:-

Presentation : 25 marks

Use of A. V. aids: 05 marks

Question /answer: 20 marks

Total : 50 marks

d) Use of audio visual aids or power point presentation is desirable.

4. Seminar can be on project selected by batch.

5. Term work submitted in group carry 50 marks.


a. Students are expected to submit the project either in desertion form or actual existing model as per

the project

assigned to them.

b. Term Work Marks on the basis of submitted project.

c. Oral to be conducted on the basis of project topic seminar.

5.5.COURSE DETAILS:

Program: Plastics Engineering Semester: V Duration: 16 Week

Course: Plastic In Packaging Code : 160520

Group: A Optional



Theory paper

duration &

Marks


L/Pr/Cr

L P D T Cr Np Hrs Mks SSL Theory Tw PR OR Total 3 2 - - 5 01 03 100 30 70 25@ 25** - 150 325

3. OBJECTIVES:

The student will be

1) Familiarize with various materials used in packaging in various forms

2) Familiarize processing techniques require for various packaging applications

3) Understand testing of packaging products, & packaging hazardous

4) To provide inputs to explore further avenues in specialty application areas in packaging

4. COURES OUTCOMES:

1 Remember history of plastics in packing , gas laws, Surface tension, physic-chemical properties, rigidity, centre of gravity.

2 Discuss packaging characteristics, various plastics material used in packaging. 3 Select appropriate test methods for plastics packages & fabricate & decorative

techniques. 4 Illustrate the conversion processes, packaging hazardous & basic properties. 5 Measure toxicity of materials, static change problems, damaging factors, pollution

factor, corrosion factor, of conversion process. 6 Do screen printing, pad printing, labelling, Hot stamping, Dart impact strength test,

Stack & Load test, shrinkage film etc.


SECTION-I


1 1.0 Packaging

1.1 Historical background, definition of packaging as an

integral part of production & marketing.

1.2. Basic concepts- Physical & Physico-chemical such

as Colligative properties, gas laws, surface tension, dialysis, diffusion, energy measurements, etc.

1.3 Package components, separations, clearance, support, positioning, cushioning, weight distribution, suspension & closures.

08 15

2 2.0 Packaging Characteristic: 2.1 Physical characteristics of product physical state,

weight, centre of gravity, symmetry, fragility, rigidity,

surface Finish, etc. 2.2 Physico-chemical characteristic susceptibility to water,

water vapour, gases, odour, heat, light mechanism of

spoilage.

2.3 Principles of corrosion & prevention.

2.4 Compatibility permissible plasticizers in plastics &

coating media, their migration to food can lining

compounds & lacquers for containers for fruit & vegetables,

fish, meat & other products.

2.5 Package design factors influencing design / product-

package relationship. Role of Nano technology in

packaging

08 25

3 3.0 Various plastics materials used in packaging & their Properties, advantages & limitations.

1) PE, PP, PVC, PS, POLYESTER, 2) NYLON, EVA COPOLYMER, EVOH, PC,

IONOMER, 3) PVDC, IMIDE COPLYMERS, ADHESIVE RESIN, 4) ACIDIC COPOLYMER OF ETHELENE.

08 10

TOTAL 24 50

SECTION II

4 4.0 Basic introduction of following Conversion Processes :

4.1 Injection moulding- containers, closures, containers

with safety closures, small size containers.

4.2 Extrusion process- Mono layer, multi-layer, shrink,

oriented films, cast, coating films, tapes, woven sacks, aluminium foil, laminations, sheet, tubes & profiles,

twist wrap film, plasma barrier coating.

4.3 Blow molding process- composite containers, composite

drums, small hollow containers , medical & pharmaceutical

09 30

bottles, stretch blow moulding

4.4 Foam moulding process expanded polyethylene,

polystyrene, structural & decorative foams.

4.5 Rotary thermo forming, Batch & continuous

thermoforming, Compression Moulding, Transfer moulding

5 5.0 Fabrication & decorative Techniques: 5.1 Cutting, sealing, welding, adhesive bonding.

5.2 Printing, metalizing, embossing, labeling, painting,

lacquering, foil in lay moulding, hot stamping, In

mould decoration

04 06

6 6.0 Packaging & Hazardous & their controls

6.1 Types static charge problems, damaging factors &effects Pollution factors6.2Toxicity of Materials

05 06

7 7.0Testing Of Plastics Packages 7.1Introduction to General test methods, 7.2 Heavy duty packages, laminates, drop tests, stack test, load test, vibration test, 7.3 Testing of flexible films, Indian

standard .for food containers

06 08

TOTAL 24 50

6. LIST OF PRACTICAL:

Practical will be performing in the Plastics laboratory as per academic schedule. Where the students will perform following experiments individually.

1) Demonstration of shrinkage of film by using hot air gun.. 2) Determination of Dart impact strength. 3) Demonstration of stack & load test 4) Demonstration of screen printing, pad printing, labelling, hot stamping 5) Determination of Toxicity. 6) Determination of compression test of cartons. 7) Determination of weight & dimensions of cartons. 8) Demonstration of barrier test for various plastics film. 9) Determination of adhesion & its strength.

1. IMPLEMENTATION STRATEGY (PLANNING): Demonstration Practical will be performing in the plastics laboratory as per academic schedule.

Where the students will perform various experiments individually.

1) Lesson plan

2) Teaching plan

8. REFERENCE BOOKS:

Sr.

No.



1 Honlon J F Packaging

Engineering

2nd 1984 McGraw Hill

2 Bruins Paul

Packaging With

Plastics

5th 1974 Gordon & Breach

3 F.W.Bilmeyer Text Book of polymer

Science

4th 2000 John wiley & sons, New

York 4 John Briston Advance in Plastic

Packaging Technology

2nd 2004 John wiley & sons, New

York 5

Selke

Understanding Plastics Packaging Technology

2nd 2012 Hanser Publications

6







4. - - Any 6 out of 8 18 - -

5. - - Any 4 out of 6 16 - -

6. - - Any 2 out of 3 16 - -

Total - 50 - 50 - 30



Duration: 16 weeks

Subject: Environmental science & Code: 160521

Waste management

Group: A Optional




duration &

marks


L/Pr/Cr


3 2 - - 5 1 3 100 30 70 50@ - - 150 325

3. OBJECTIVES:

1. To provide basic understanding of ecosystem, Environmental pollution, polymer waste.

2. To explain different polymer degradation and recycling of polymers.

3. To explain biio-degradability of plastics.

4. COURES OUTCOMES:

1 Describe importance of Plastic waste management. 2 Explain ecosystem. 3 Choose Plastics waste disposal method. 4 Identify Recyclable Plastics. 5 Test biodegradability of Plastics.



SECTION-I

1 1.0 Introduction- Multidisciplaining nature of

environmental studies, definition, scope & importance,

need for public awareness.

02 06

2 2.0 Ecosystem- Basic concepts, structure & function

of an ecosystem, energy flow in the ecosystem.

Producers, consumers & decomposers.

02 08

3 3.0Environmental Pollution- Causes, effects quality

control measure of various modes of pollution like Air

pollution,Water pollution, Soil pollution, Noise

pollution, Thermal pollution, etc.

05 10

4 4.0 Social issues & Environment- Environmental

ethics & issues consumerism and waste products.

Awareness of various acts for environmental

protection, pollution, etc.

03 06

5 5.0Importance of Plastics in modern society- Health

care, economic development, social progress, auto-

motive industry, transportation, building and

construction, insulation & energy conservation,

packaging of food products & national security, nano

technology, disaster management.

06 10

6 6.0Polymer Waste- Types, flow diagrams,

segregation, integral waste management, traditional

path way & new technique of plastics waste

management technique of waste management, global

concerns & challenges.

06 10

Total 24 50

SECTION II

7 7.0Polymer Degradation-

7.1Biodegradability myths & realities, aspects of

biodegradability,

7.2 Definition like degradable plastics, Biodegradable

plastics, photo degradable plastics, Thermal

degradable

plastics, compositing plastics,

7.3Degradability & its mechanism, types & concepts,

Additives for plastics to promote degradation.

7.4 Biodegradable polymers- types & applications,

(Thermal

degradability & its mechanism)

7.5 International standard for Biodegradability

15 25

8 8.0Recycling Of Polymers-

8.1 Plastics recycling technique, Indian plastics

recycling

industry scenario,

8.2 Steps that plastics good undergoes during the

process of

mechanical recycling,

8.3 Uses of recycle plastics

8.4 Equipment & processing

09 15

Total 24 50


Shall consist of a journal base on study / demonstrations and visits.

Practical Examination: Shall consists of an oral based on the term work

1) Visit to various plastics recycling plants

2) Visit to ICPE

3) Collection of chart models etc.

4) Collection of various used plastics samples

5) Collection of plastics related environmental issues.

6) Study of determination of biodegradability of Plastics.


7.1 Taching Plan

7.2 Lesson Plan

1 Classroom teaching: Review : Related topics from previously taught subjects. Use

of multimedia,Charts, models, transparencies, learning materials. 1 Library : Referring to books, journals, manuals.

2 Exercise :Collection of specifications of various Plastics waste materials, products,

specifications,Handling methods, storage.

3 Industry : Plastic recycling industries, Study of various Recycling processes.

8. REFERENCE BOOKS:

Sr.

No.


Publication

Publishers

& Address

1 D. L. Kaplan Biopolymers from Renewable

Sources

1998 Springer

Verlag

2 Dinesh

mohan,

Ashok mishra

Safety with Plastics 2000

3 Boustead, I &

Hancock, G. F

A report for INCPEN 1989 The open

University,

UK

4 Antonin

SLEJSKA

Biodegradability plastics 1997

5 ICPE A proposal for Up- gradation

of Plastic recycling

industries

2001 ICPE







4. - - Any 6 out of 8 18 - -

5. - - Any 4 out of 6 16 - -

6. - - Any 2 out of 3 16 - -

Total - 50 - 50 - 30



Duration: 16 weeks

Course: Fabrication of moulds & Dies Code: 160516

Group: A Optional




duration &

marks


L/Pr/Cr


2 3 - - 5 1 4 100 30 70 50@ - 50** 200 235

3. OBJECTIVES:

1. To provide basic understanding raw material for mould and die

2. To explain manufacturing process of moulds and dies.

4. COURES OUTCOMES:

1 Identify correct manufacturing process for economical production of the mould. 2 Understand the importance of finishing operations and mould assembly techniques. 3 Select the proper raw material from the available materials. 4 Differentiate different raw material for different part of mould. 5 Produce mould & Dies



SECTION-I

1.0 Design aspect of mould manufacturing

1.1 Operations to be performed on mould elements.

1.2 Different mould manufacturing techniques.

1.3 Accuracy in various machining operations.

1.4 Effect of limits and fits on mould elements.

1.5 Economic considerations.

1.6 Selection of suitable manufacturing techniques

and machine tools.

10 03

2.0 Selection of materials of construction

2.1 Essential properties of mould steel

2,2 Properties of ferrous and non ferrous materials

like plate steel, tool steel, stainless steel, beryllium

Copper etc.

2.3 Criteria for selection of material

12 04

3.0 Software packages:

3.1 Advantages and limitations of software

packages CAD, CAM, and CAE.

3.2 Selection of components that can be

manufactured with the help of such packages.

3.3 Parameters required for developing a package

3.4 Introduction of commonly available packages.

12 04

4.0 Conventional and modern machining

processes:

4.1 Revision of machining processes like grinding,

milling, honing, drilling

4.2 Modern machining process

4.2.1 Principle of process

4.2.2 Tools, machinery, chemicals etc. required

4.2.3 Accuracy and finish available

4.2.4 Application of process

4.3 Process like spark erosion, E.D.M etc

16 05

TOTAL 50 16

SECTION II

5.0 Heat Treatment

5.1 Requirement of heat treatment

5.2 Principle of heat treatment

5.3 Objective processes used for case hardening,

carburising, stress relieving

5.4 Heat treatment equipment like foundry, etc,

temperature and control

5.5 Difficulties occurring during heat treatment and

remedies for the same.

16 05

6.0 Polishing and finishing

6.1 Polishing and finishing 16 05

6.2 Tools, materials and equipments used for the

same

6.3 Grade of polishing and finishing

6.4 Processes like diamond polishing, chrome

polishing

7.0 Mould Assembly

7.1 Inspection of all tool elements

7.2 Fitting, scraping, grinding, polishing

7.3 Assembly, tool touching

7.4 Check list

12 04

8.0Mould trials and rectification 06 02

Total 50 16


1) Students will manufacture a injection mould for hand operated injection moulding

machine.

2) Students will manufacture a compression mould used for mechanical

compression press.

3) Students will manufacture dies used for extrusion of various profiles (Pipe,

Wire, Cable etc)

4) Visit to mould manufacturing industries.


Students will be aware of quality of mould and latest techniques used in

fabrication of a mould. Visits to the industries are to be arranged to

supplement the theoretical knowledge,

8. REFERENCE BOOKS:

Sr.

No.


Publication

Publishers &

Address

1 S.K Hazara

Choudhary

A.K Hajra

Choudhary

Workshop Technology Vol-II 9th 1997 Media

promoters and

publishers

Ltd.New

Delhi

2 B.S

Raghuvanshi

Workshop

Technology

Vol-II

9th 1997 Dhanapaat Rai

and

Sons,New

Delhi

3 W.A.J

Chapmannn

Workshop

Technology

Vol-I, II, III

4th 1998 Edword

Arnold

Publishers

Ltd,338,Euston

Road

Lend,U.K

4 Dr O.P

Khanna

Material Science and

Metallurgy

3rd 2001 Dhanpat Rai

and

Sons,Delhi

QUESTION PAPER PATERN:






4. - - Any 6 out of 8 18 - -

5. - - Any 4 out of 6 16 - -

6. - - Any 2 out of 3 16 - -

Total - 50 - 50 - 30



Duration: 16 weeks

Course: # Entrepreneurship Development Code: 160014

Group: M* Elective




duration &

marks


L/Pr/Cr


03 - 01 04 01 03 100 30 70 25@ - 25** 150 324

3. OBJECTIVE:

1) Know the essential elements of entrepreneurship,

2) Understand the procedure to start an enterprise

3) Able to become Techno-preneurs in their future career

4. COURES OUTCOMES:

1 Understand the concept of entrepreneur, & entrepreneurship,Intraprenuer

2 Identify Entrepreneurship opportunity

3 Acquire entrepreneurial value and attitude

4 Use the information to prepare project report for business venture

5 Create appropriate a business model 6 Develop a well-presented business plan that is feasible for the student



SECTION-I

1. Venture Development

1.1 Introduction of entrepreneurship

1.2 Small Scale industries

1.3 Business structure

1.4 Support agencies ( Include Rules & Regulation ,

VAT , Sales of goods Acts)

10 18

2. Finance For Enterprise and Financial statement

2.1Source of finance

2.2Fixed capital & working capital

2.3Short term and long term source

2.4Balance sheet

2.5Profit & Loss Account

2.6Financial ratio

08 18

3 Product/ service Development

3.1Selection of product /services

3.2Innovation management

3.3APQP( advanced product quality planning)

3.4FMEA( Failure Mode effective analysis)

06 14

TOTAL 24 50

SECTION II

4 Marketing Strategy

4.1Importance of marketing

4.2 marketing management

4.3 soft skill

4.4 pricing and costing

4.5 marketing mix

4.6 Distribution channel

10 18

5 Managing Projects

5.1 Reports

5.2 ROI ( Rate of Interest)

5.3 project Financing

08 14

6 Organisational Management

6.1 Team Building

6.2 Recruitment

6.3 Qualities of leader ( Entrepreneur)

6.4 Quality Management

6.5 QMS system

06 18

TOTAL 24 50


1. Methods of Teaching Learning

2. Application of concepts And Techniques

3. Library assignments and real life studies form the part of continuous assessment.

7. REFERENCE BOOKS:

Sr.

No.


Publication

Publishers

& Address

1 Shri Vasant

Desai

Dynamics of Entrepreneurial

development and

Management

4th 2001 Himalaya

Publication

Girgaon

Mumbai-04

2 Shri S.S.

Khanna

Entrepreneurship

Development

2nd 2000 S.chand &

co. New

Delhi

3 Shri Vasant

Desai

Small Scale Industries and

Entrepreuship

7th 2002 Himalaya

Publication

Girgaon

Mumbai-04

4 Shri J.

saboo

Entrepreuship 5th 2010 Himalaya

Publication

Girgaon

Mumbai-04

8.QUESTION PAPER PATERN:






4. - - Any 6 out of 8 18 - -

5. - - Any 4 out of 6 16 - -

6. - - Any 2 out of 3 16 - -

Total - 50 - 50 - 30



Duration: 16 weeks

Course: Production Management Code: 160523

Group: M* Elective




duration &

marks


L/Pr/Cr


03 - 01 04 01 03 100 30 70 25@ - 25** 150 324

3 OBJECTIVE:

1) Understand the concept of production system

2) Understand the material handling system and its applications

3) Understand the concept of inventory control system

4) Understand the project management techniques

5) Understand for concept of work study

4. COURES OUTCOMES:

1 Understand the concept of production system, nature and importance of production management

2 Identify the need of management in production system 3 Calculate the time required for production , project ,using different techniques Like

CPM,& PERT 4 Analysis A Script to determine the cost of production 5 Develop a details budget for production & production schedule 6 Research and develop resources for various production need required



SECTION-I

1. Production system & management

1.1 Function Of management

1.2 Production system concept, Types of

production

1.3 Various department in the organisation &

their interrelationship

1.4 Roll of supervisor in the organisation

1.5 Selection, recruitment and training of person

08 16

2 Plant Layout & material Handling

2.1 Importance Of Layout

2.2 Effect of layout on production management

2.3 Types of layout

2.4 Layout visualising techniques

2.5 Comparison between product & process

layout

2.6 Importance of material handling equipment

2.7 Equipment like, horizontal, vertical, general

2.8 Principle of material handling, factor

affecting on material handling.

10 18

3 Production Planning & control

3.1 Function of production planning and

control

3.2 Phases of production planning and

control

3.3 Definition of sales forecasting, use of

sale forecasting

3.4 Other preplanning activities

3.5 Steps involve in PPC

3.6 GANTT CHART

06 16

TOTAL 24 50

SECTION-II

4 Inventory Control

4.1 Importance of inventory

4.2 Types of control, inventory.

4.3 Analysis of inventory, like ABC,VED

4.4 Concept of EOQ & cost associated with

inventory

4.5 Derivation of EOQ & calculation

4.6 Method of controlling inventory, like

two bin system, fixed order quantity.

12 22

5 Project management techniques

5.1CPM &PERT their use in planning

simple example to be discussed

5.2 Quality circle

5.3 Importance of project management

06 15

6 Introduction to Work study & time management

4.1 Importance of inventory

6.1 Definition & objective of work study

6.2 Basic procedure for work study

6.3 Definition of time management

6.4 Procedure for time management

6.5 Different techniques of work

measurement

6.6 Safety and pollution control methods

6.7 Study on personal protective

equipments.

06 13

TOTAL 24 50

6.IMPLEMENTION STRATEGY (PLANNING):

In depth study and understanding of the subject will be implemented by using

Lesson Plan Use of Chart Models and Transparencies Use of other teaching media such as case study, group discussion, etc 7. REFERENCE BOOKS:

Sr.

No.


Publication

Publishers

& Address

1 ILO Work study 2000 Universal

pub.co.534

Mumbai-02

2 Raiph M.Barnes Motion & time study design &

measurement of works

7th 1980 Johnwiley &

Sons

Inc.605,Third

avenue, New

York

3 Marvin E.

Mundel

Motion & Time study 6th 1998 Prentice Hall

of India ,Pvt

Ltd New

Delhi

4 MantandTelsang Ind.Engg & Production

Management

2nd 2002 S.chand & o.

Ram Nagar,

New Delhi




1. Any 6 out of 8

(3 marks each )

18 Any 4 out of 5

( 4 marks each )

16

2. Any 4 out of 6

( 4 marks each )

16 Any 1 out of 2

( 6 marks each )

06

3. Any 2 out of 3

( 8 marks each )

16 Any 1 out of 2

( 8 marks each )

08

4.

Any 6 out of 8

(3 marks each )

18

5.

Any 4 out of 6

( 4 marks each )

16

6.

Any 2 out of 3

( 8 marks each )

16

Total 50 50 30

Shri Vile Parle Kelavani Mandal’s



W.E.F Batch Admitted JUNE 2016PROGRAMME: PLASTICS ENGINEERING

SEMESTER :-VI

#INPLANT TRAINING

(160533)

Sr. No Training Duration Credit Weekly Report

Quiz TestMark

Dissertation (Report)

Oral/Viva Total

6.1 # 24 Weeks *** 20 Maximum Marks

50@ 50@ 50** 50** 200

Minimum Marks

20 20 20 20 80


HOD PRINCIPAL

Objective for inclusion of industrial training in curricula.:

The inplant training facilitate students to understand the various domains of industry along withwork environment and the students are exposed to the latest developments in

technologies.

COURSE OUTCOMES :Work at shop floor.

Understand the quality of raw material and molded products

Work in different domains of Plastics industry

Enhance communication skill

Maintained discipline and ethics

shri vile parle kelavani mandal’s thus 4...

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