chaudhary devi lal university, sirsa haryana · 2020. 5. 18. · created date: 1/17/2019 1:01:36 pm
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MASTER OF TECHNOLOGY
IN
MECHANICAL ENGINEERING
PROGRAMME SCHEME AND SYLLABUS
(w.e .f .20L5-15)
DEPARTMENT OF MECHANICAL ENGINEERING
GURU JAMBHESWAR UNIVERSITY OF SCIENCE AND TECHNOLOGY, HISAR
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To impart knowledge to students in the latest technological topics on Mechanical
Engineering and to provide them with opportunities in taking up advanced topics in
the field of research.
To create a congenial environment that promotes learning, growth and imparts
ability to work with inter-disciplinary research'
To broaden and deepen their capabilities in analyical and experimental research
methods, analysis oi dutu, and diawing relevant conclusions for scholarly writing
and presentation of their research work'
To provide guidance to students for their choices in research'and professional career
outiook and to encourage students to take up research'
To equip students with integrity and ethical values so that they become
sible technocrats.
-- q\-
Acquiring fundamental knowledge and understanding in the field of Mechanical
Engineering.
Formulating relevant research problems; conducting experimental andior analyical
work and analyzingresults using modern mathematical and scientific methods.
Reviewing and documenting the knowledge developed by schblarly predecessors and
critically assess the relevant technological issues.
Designing and validating technological solutions to defined problems and write
clearly and effectively for the practical utilization of their work.
Ability to use the techniques, skills, and modern engineering tools necessary for
mechanical engineering practice.
Ability to function effectively on multidisciplinary teams
- \P -
DEPARTMENT OF MECHANICAL ENGINEERING
GURU JAMBHEsHwAR UNIVERSITY oF sclENcE AND TECHNoLoGY, HIsAR
M.Tech. (Mechanical Engineering)(w.e'f. zor5'zol6)
FIRST SEMESTER
SECOND SEMESTER
THIRD SEMESTER
FOURTH SEMESTER
Course No. Title L P Cr.
ME-751 Advanced Mechanics of Solids J 0 3.0
ME-753 Advanced Engineering Materials 4 0 4.0
ME-755 Automation in Manufacturing 4 0 4.0
ME-757 CNC Technologv and Programming 3 0 3.0
ME-759 Advanced Heat and Mass Transfer 4 0 4.0
ME-761 Advanced Mechanics of Solids Lab 0 4 2,0
ME-763 CNC Technology and Programming Lab 0 4 2.0
Total 18 08 22.0
Course No. Title L P Cr.
Prosramme Elective -I 4 0 4.0
ME-752 Advanced Machine Design 4 0 4.0
ME-754 Computer Aided Design and
Manufacturing
J 0 3.0
ME-756 Finite Element Methods J 0 3.0
ME-758 Tool Eneineering 4 0 4.0
ME-760 Computer Aided Design and
Manufacturine Lab
0 4 2.0
ME-162 Finite Element Methods Lab 0 4 2.0
Total l8 08 22.0
Course No. Title L P Cr.
Proqramme Elective -II 4 0 4.0
Ooen Elective 3 0 3.0
ME-765 Tr bolosy J 0 3.0
ME-767 T bology Lab 0 4 2.0
ME-769 Seminar 0 4 2.0
ME-771 Thesis (starts) 0 6 3.0
Total 10 t4 17.0
ME-772
Total Credits: 70.0
-\l-
LIST OF PROGRAMME ELECTIVES -ICourse No. Title L P Cr.ME -732 Robotics 4 0 4.0
ME-734 Instumentation and Mesurine Svstems 4 0 4.0
ME-736 Flexible Manufacturins Systems 4 0 4.0
ME-738 Mechatronics 4 0 4.0
LIST OF PROGRAMME ELECTIVES -II
Course No. Title L P Cr.ME-73r Optimal desisn of thermal systems 4 0 4.0
ME-733 Computational fluid dynamics 4 0 4.0
ME-735 Advanced Thermodvnamics 4 0 4.0
ME-737 Heat exchanger analysis and design 4 0 4,0
LIST OF OPEN ELECTIVES
Course No. Title L P Cr.BME.TOO Biomedical Instrumentation J 0 3.0
ECE-7OO Advancements in CommunicationSvstem
3 0 3.0
CSE.TOO Introduction to Soft ComputingTechniques
J 0 3.0
PT-700 Advanced Printing Technology 3 0 3.0
ME-700 Computer Aided Design &Manufacturins
3 0 3.0
*-(-
FIRST SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M.Tech. (Mechanical Engineering), w.e.f, 2015-16
_ \3-
FIRST SEMESTER
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Department of Mechanical Engineering, GJUS&T, Hisar, M.Tech. (Mechanical Engineering), w.e,f. 2015-16
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, Eiternal Miii: i,ifi...ll.:::.ll:rtrii.l,,r,tl.,iil.r:j:lrGr-tdit
400 4.07030
fo in""troii the ability to design of hydraulic, pneumatic and electro-pneumatic logic circuits forautomating processes in manufacturing, demonstrate problem-solving skills in qutomation and safely
use the ioihin"t in the industries. Also, to explore the use of dffirent sensors, control valves,
controllers qnd actuators for electro-pneumatic & hydraulic cifc!!l!-s. :
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@mationandIntegration:BasicConcepts,Typesofautomation,Automation.Modern developments in automation in manufacturing and its effect on global competitiveness, Need and
implications of automation in Manulacturing.
UAit,II@iiFneumaticsElectro-pneumaticcontro1sanddevices,Basicelementshydraulics/pneumatics, Electro-pneumatic systems, Fluid power control elements and standard graphical
symbols for them, Construction and performance of fluid power generators, Hydraulic & pneumatic
rylinders - construction, design and mounting, Hydraulic & pneumatic valves for pressure, Flow &direction control, Servo valves and simple servo systems with mechanical feedback, Solenoid, Different
sensors for electro-pneumatic system, hydraulic, pneumatic & electro-pneumatic circuits.
Irt-du"tio, to rapid prototyping (RP), Basic Principles of RP, Steps in
Classihcations of Different RP Techniques.
Materials for RP: Plastics, ceramics, Resins, Metals, Selection criterionsprocesses, the advantages and limitations of different types of materials.
RP, Advantages of RP,
for materials for different
.unirlvtransfer lines, without and with
Performance and economics
Automatic transfer machines: Classifications, Analysis of automated
buffer storage, Group technology and flexible manufacturing system.
Assembly hutomation: Types of assembly systems, Assembly line balancing,
oI assembly system.
Frojeet WorkSt"d""tt ,* rrq;i;;d io corry out q project related to the course contents. The topic ofthe project will be
selected in consultation with course coordinator. The project report will be submitted at the end ofSemeSter.TheevqluationwillbedoneinternallybythecourSecoordj!,9tor.ffieouise OutcomesStudents will be able tot unclerstand the concepts of automation theory and its applications in various fields of manufacturing.
o understand principles, methods, and hqrdware/soffware tools used in modern computerized design
and manufacturing of discrete parts.
o understand the main principals and components involved in optimizing production system design and
oDerqtions.
Groover, M. P., "Automation, Production systems and Computer Integrated Manufacturing",2ndEd.,
Prentice Hall,2005.Boothroyd, G., "Assembly Automation and Product Design", 2nd Ed., Marcel Dekker, 1992.
Boothroyd, G., Dewhurst, P. and Knight, W., "Product Design for Manufacture and Assembly", 2nd
E,d., Taylor & Francis, 2002.
Boothroyd, G., Poli, c. and Murch, L. E.. "Automatic Assembly", Marcel Dekker, 1982.
Tergan, V., Andreev, I. and Lieberman, B., "Fundamentals of Industrial Automation", Mir Publishers,
I 986.
FIRST SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M,Tech, (Mechanical Engineering), w.e.f. 2015-16
- \r-
FIRST SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M.Tech. (Mechanical Engineering), w.e.f, 201 5-16
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FIRST SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M.Tech. (Mechanical Engineering), w,e.f, 2015-16
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FIRST SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M.Tech, (Mechanical Engineering), w.e.J,, 2015-16
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Y.A Cengel, "Heat Transfer: A Practical Approach", TMH India, 2013'
KV Narayanan and B Kakshmikutty, "Mass Transfer:Theory and Applicatlons", CBS Publishers and
Distributors Pvt. Ltd, 2014.
In the semeste, uominrtion, ,ine qr"stions are to be set by the examiner. Question No. I will be
compulsory and based on the entire syllabus (all four units). It will contain seven short answer type
qu"itionr, each of two marks. Rest of the eight questions is to be given by setting two questions from each
o7tlr"pry units of the syllobus. A candidate is required to attempl otherfour questions by selecting one
from eqch ofthe four units.
FIRST SEMESTER
Department of Mechanical Engineering, GJLIS&T, Hisar, M,Tech, (Mechanical Engineering), w,e.f. 2015-16
--K-
FIRST SEMESTER
Department of Mechanical Engineering, GJIIS&T, Hisar, M,Tech, (Mechanical Engineering), w,e,f, 2015-16
*70 -
FIRST SEMESTER
Department of Mechanical Engineering, GJLTS&T, Hisar, M.Tech. (Mechanical Engineering), w.e,f, 2015'16
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SECOND SEMESTER
Department of Mechanical Engineering, Gl(lS&T, Hisar, M.Tech. (Mechanical Engineering), w.e.f. 2015-16
*?? -
Blackie & Son Ltd,1972.r James G. Bralla, "Design for Manufacturability Handbook", McGraw Hill Co., 2 edition 1998r K. G Swift, "Knowledge based design for manufacture", Kogan Page Ltd., 1987.o Penny R.K. And Maniott D. L., "Design for Creep", 2"d edition 1995
In the semester examinqtion, nine questions qre to be set by the examiner. Question I{o. I will becompulsory and based on the entire syllabus (all four units). It will contain seyen short qnswer typequestions, each of two marks. Rest of the eight questions is to be given by setting two questions from eachof thefour units of the syllabus. A candidate is required to qttempt other four questions by selecting one
each ofthe four units.
SECOND SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M.Tech. (Mechanical Engineering), w,e.f, 2015-16
* L:\-
SECOND SEMESTER
Depurtment of Mechanicul Engineering, GJUS&7, Hisar, M.Tech. (Mechanical Engineering), w.e.f. 2015-16
-&V -
300 3.07030
. To develop the knowledge and skills needed to apply Finite Element Methods to problems in
Introduction: Basic concepts, Historical background, general applicability of the method, generaldescription of FEM, one dimensional problems with linear & cubic interpolation model, derivation offinite element equations using direct approach, comparison with other methods commercial finite elementprogmm packages.
Discretization of domain: introduction, basic element shapes, discretization process, node numberingscheme. automatic mesh seneration
Interpolation Models: Introduction, polynomial form of interpolation functions, simplex, complex andmultiplex elements, interpolation polynomial in terms of nodal degree of freedom, selection of order ofinterpolation polynomial, convergence requirements, linear interpolation polynomial in terms of globalcoordinates, interpolation polynomial for vector quantities, linear interpolation polynomial in terms oflocal coordinates, integration of functions of natural coordinates,
Higher order and Isoparametric elements: lntroduction, higher order one dimensional elements, higherorder elements in terms of natural coordinates, Isoparametric elementsDerivation of element matrices and vectors by using direct and weighted residual approach, assembly ofelement matrices and vector and derivation of system equations, Numerical solution of finite element
ations by usins Gaussian elimination method.:,11,1i1'[11'
Applications in heat transfer: Finite element solution of one-dimensional, two-dimensional and three-dimensional steady state heat conduction problems by using Galerkin approach.Applications in fluid mechanics: Finite element solution of incompressible and compressible fluid filmIubrication problems by using Galerkin approach.Applications in solid mechanics: Finite element solution of three-dimensional elasticify problems byusins Galerkin approach.
The students will be qble tot select the different Qpes of element, generate mesh, construct element stffiess matrices, assemble
element stffiess matrices, impose boundary conditions, solve the equations and interpret the results
for dffirent problems.. apply Finite Element Methods to lD, 2D, 3D practical engineering problems.
Books recommended
Fish, J., and Belytschko, T., "A First Course in Finite Elements", lst Ed.,John Wiley and Sons (2007)Chaskalovic J., "Finite Element Methods for Engineering Sciences: Theoretical Approach andPloblem Solving Techniques", 1" Ed., Springer (2008)Huebner K.H., Dewhirst, D. L., Smith, D. E., and Byrom, T. G., "The Finiti: Element Method forEngineers", 4m Ed., Wiley(2008)Rao, S.S., "The Finite Element Method in Engineering", 5th Ed., Butterworth-Heinemann (2010)Zienkiewicz, O. C., Taylor R.L. and ZhuJ.Z., "The Finite Element Method: Its Basis andFundamentals''. 7'h Ed.. Elsevier, (2013
SECOND SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M,Tech, (Mechanical Englneering), w.e.f, 2015-16
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Inthesemesterexamination,ninequestio,'o,,to'bbased on the entire syllabus (all four units). It will contain seven short onriq type questions, each of two marl<s.Rest of the eight questions is to be given by setting two questions from each oj the- four units of the syllabus. Acandidate is required to attempt other four questions b) selecting one from each of the four units.
SECOND SEMESTER
Department of Mechanlcal Engineering, GIUS&T, Hisa4 M.Tech. (Mechanical Engineering), w.e.f. 2015-16
-&l -
SECOND SEMESTER
Depafiment of Mechanical Engineering, GJUS&T, Hisar, M,Tech. (Mechanical Engineering), w.e.f, 2015-16
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o Jeff Lantrip, John G. Nee, David Alkire Smith, "Fundamentals of Tool Design", Society ofManufacturing Engineers, 2003.
o Jones E.J.H., Town H.C., "Production Engineering: Jig and Tool(Publishers) Ltd, 2009.
. Maurice Henry Albert Kempster , "An Introduction to Jig and Tool
Design", Butterworth and Co
Design', Maurice Henry AlbertKemoster. Enslish Universities Press. I964
I\V!L
In the semester exqmination, nine questions ore to be set by the examiner. Question No. I will be
compulsory and bqsed on the entire syllabus (all four units). It will contain seven short qnswer type
questions, each of two mqrks. Rest of the eight questions is to be given by setting two questions from each
of thefour units of the syllobus. A candidqte is required to qttempt otherfour questions by selectingoneeach ofthe four units.
cination, nine questions ore to be set by the examiner. Question Ntjj!::-J=:
No. I will b'
SECOND SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M.Tech. (Mechanical Engineering), w.e,f. 2015-16
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SECOND SEMESTER
Departmenr of Mechanical Engineering, GJUS&T, Hisar, M,Tech, (Mechanical Engineering), w,e$ 2015'16
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SECOND SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M.Tech, (Mechanical Engineering), w,e.f, 2015-16
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THIRD SEMESTER
Depurtment of Mechanical Engineering, GJUS&T, Hisar, M.Tech. (Mechanical Engineering), w.e.f, 2015-16
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THIRD SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M,Tech. (Mechanical Engineeting),w,e$ 2015'16
-54 -
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To learn about tribotett*g o"d "*p"ri*iintal
techniques in Tribologt and qnalysis of real time
ior the measurement of Pressure and
Temperature distribution in the fluid film of hydrodynamic journal bearings at different loads and
speeds. To analyze the real time results obtained through data acquisition system for predicting the
performance characteristics of bearing.
To perform experiment on the journal bearing test rig for investigating the fluid film thickness of
hydrodynamic joumal bearings at dlfferent loads and speeds. To analyze the real time results obtained
through data acquisition system for predicting the performance characteristics ofbearing.
To measure the frictional torque in hydrodynamic journal bearings at different loads and speeds on
journal bearing test rig. To analyze the real time results obtained through data acquisition system for
predicting the performance of bearing.
To determine wear preventive (WP) and extreme pressure(EP) behavior of lubricants on four ball
tester and to measure viscosity of lubricants with the help of viscometer . To analyze the real time
results obtained through data acquisition system for predicting behavior oflubricants'
To determine the friction and wear characteristics in sliding contacts undei various normal loads and
speeds on wear and friction monitor. To arralyze the real time results obtained through data
acquisition system for predicting tribological characteristics.
The modeling and analysis hydrodynamic/hydrostatic u..i^gt rtirg t"ft**
Students will be able too predict the performance chqracteristics of hydrodynamic journal bearings experimentally'
o determine the behaviour of lubricants under dffirent operating conditions.
o predict the friction and wear characteristics under dffirent loads.
. -qnalyze
and predict the performance characteristics of hydrodynamic/hydrostatic iournal bearings
usins software (ARMD)
fh, irt"*rl "*iiation will be done by course coordinator' , t the end of the semester, viva-voce will be
concJucted both by internal and external e"I7Yl!9!:Yk
THIRD SEMESTER
Department of Mechanical Engineefing, GJUS&T, Hisar, M.Tech. (Mechanical Engineering), w'e'f' 2015'16
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THIRD SEMESTER
Depdrtment of Mechanical Engineering, Glus&T, Hisar, M.Tech. (Mechanical Engineering), w'e'f' 2015'16
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THIRD SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M,Tech, (Mechanical Engineering), w.e.f, 2015-16
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FOURTH SEMESTER
Department of Mechanical Engineering, GJUS&T, Hisar, M.Tech. (Mechanical Engineering), w.e.f. 2015-16
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THTRD SEMESTER
. The ctbjective of this course is to impart the basis knowledge of diferent printingprocesses alongwith their role, importance and applications.
Deparlment of Mechanical Engineering, GJUS&T, Hkar, M.Tech. (Mechanicat Engineering),w.ef. 2015-16
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Historical development in Printing Technology. Recent trends in the field of printing and alliedtechnologies.Pre-Press, Press and Post press operations
Letterpress Printing Process; Characteristics, role, importance and applications.Offset Printins Process: Characteristics. role. importance and applications.
Flexography Printing Process; Characteristics, role, importance and applications.Gravure Printing Process; Characterisiics, role, importance and applications.
Screen Printing Process; Characteristics, role, importance and applications.Disital Printihs Process: Characteristics. role. importance and aoplications
The.learnlng outcome of ihis course is eypected that after completion of this course the students
witl be having the detail lcnowledge of iarious..printing processes and the recent development in
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Anjan Kumar Baral, "Sheet-Fed Offset Technology".C.S. Mishra, "Letterpress Printing".' .
Havoed M Fenton, Frank J. Romao, 'lOn demand printing".
In the Semester eiqmination, nihe questions are to be set by the examiner._ Question No. I will be
conpulsory and based on thc entire syllabus (a-ll four units). It will contsin scven short answer type
questions, each of two marl<s. Rest of thg eight queslions is to be given by setting two questions fromeoch of the four units of the syllabus. A candidate is required to attempt other four questions by
each of the four units.
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THIRD SEMESTER
'i'o know andunderstand thc different lhermal systems and to get familiar with their design, thermalmodeling, objectives, simulation, and economie analysis. ':
'io trtderstonQthe optimizatiort, it.s role, and melhocis in the analysis and design of various types ofthennal svstems and eauinnrcn!'.;
I}rgirrccrirr;i dosign: krtroductioil, {:)irgiii!:',)iiirg iiesign, desigl as }lan uf engirreering urrilertaking,rvorkat'lt' rni optimum systenrs, IJasic considerations in design: tbnnulation of'the design problem,r:lnceptr:iri design, steps irr the desigri r)rocess, computer aided ciesign.
iviodr:l,rrii,i' thcrmal svsi-erns: 1'
4.030
irln deli.^rrs. rniithemal rcal inod el ingi:iquatiix iitring: Meihod of ieastdirnensional analysis.
inoilels, mt',cieling of heat exchangers, cvaporators and
ancJ the art of crluatiou fittirrg, physical modeling and
meihods for numerical
systems from differentnls.
to the course contents. The topic of the project willThe project report will be submitted al the end
lhe course coordinator.
ypes ol'
. s(lLares
r:r;Ceiiirli iinci simulatiol: Nurnerical nrodeling, system. simulation,
ricsign of tlicnnal systerns: {nitial design, dcsign shategies, design ofirpplicaticn alr:as, additional considerations for ical
i'lumerical;imulatic,n.ncceptablc
,9ludenls are required toselecie't in consultation-re mesrcr. The evaluat ion
c1rry out o project relatedwith course coorriinator.willbe dont: i
Optirnir:ation: Optirui;iati<-in in design, Ievels of ,-rptirnizatiOrr, basii ooncepts, piactical aspects in optimaldesign, rni.ir:li'.inaticai lepresentation rntl statement ol' ile optinrizatiolt problem, practical aspects inrrptim:::Cr::riil.i-.tptinrir-aiiou methods; Lagrange lnultipliers, search methods, and etric programrning.
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Students will hs able to, unclers!.ttrJ about the thermai interactions and its role irr nany like processes and to develop rhe
medns to iockle the vartous thermal problems. lu design encl selection of the ruaterials/equipments for a .porticular applicotion based upon its thermal
resoznse and to and optimize the thermal lems.
W. F. !lto.:cker, "f)esign of Thennal Systems", Mccraw-Hill,3'd ed. 2014.{
6
Y. .'l,.ri,r; "i)esign arrti ()ptirni:zation of Thermal Systems'1, CRC press, 2nd ed. 200g.A. ilejaii, G. lsalsaronis and M. J. Morarr, "Thermal Design and Optimization", Joirn Wiley anclSons,2tll2.N. Surynarayana and C. Arici, "Design and Simulation of 'firermal System", McGraw-Hill,Zb02.Robcrr F. Boehnr, "l)eveioprnent in the Design of Thermal Systems", Cambridge University press,2Oir9.
o f,. l-1alaji, "Ilssentials of thermal system desigr and optimizatisn'I, CRC Press,20l l.I . wiiiiani 5. Janna, "Design of flyid thermal systems", cengage.leaming, j'd eg.,20l l.
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Deparuient tt.{ (echaricu! Engheering, GJ(JS&7, }Iisar, M.Teclt. (Mechanicoi Engineering), w,e,f,, Z0'
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