foundry tech practical
TRANSCRIPT
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YEAR 2- SEMESTER 4
PRATICAL
Version 1: December 2008
UNESCO-NIGERIA TECHNICAL &
VOCATIONAL EDUCATION
REVITALISATION PROJECT-PHASE II
NATIONAL DIPLOMA IN
MECHANICAL ENGINEERING TECHNOLOGY
FOUNDRY AND FORGING OPERATIONS
COURSE CODE: MEC215
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TABLE OF CONTENTSWORKSHOP TASK 11.0 Safety Precaution
1.1 Observation of Workshop SafetyThe need for safety
Hazards1.2 General rules for safety
Behavior1.3 Personal safety
WORKSHOP TASK 2Identify and use of foundry tools
Objective:- Skills acquisition in use and handling of foundry tools
Tools:- Moulding Boxes, Cores Box, Rammer, Trowel, Bellows, Turned Spiral pins, pattern.
Procedure:
WORKSHOP TASK 3
Selecting material for pattern makingObjective: Design & manufacture a pattern for a given product.
Tools: wood, measuring tools, working tools.
Procedures
WORKSHOP TASK 4Major types of pattern objective
Objective: identifying various types of pattern
Tools:a. Single (loose pattern)
b.
Gated patternc. Cope & drag.
d. Match platee.
Follow board (special pattern)
Procedure:
WORKSHOP TASK 5Determination of grain size of sand.
Objectives:To Determine the Percentage Distribution
Tools: Sand (50g) Sieve Shaker.
Procedure:
WORKSHOP TASK 6Determination of the amount of clay in foundry sand
Objective:-Clay content determination
Tools: 50g clay sample, distilled water caustic soda washed bottle
Procedures:-
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WORKSHOP TASK 7Mixing & moulding operations
Objective: green sand mixing and moulding procedures
Tools: Sand, clay, water, binders additives moulding box rammer, trowel, pattern, spring pinsbellows
Procedures:
WORKSHOP TASK 8Moulding and preparation of cores
Objectives :Core MakingTools:Sand, organic Binders, core boxes, core plates
Procedure:
WORKSHOP TASK 9Sand Testing Methods
Objectives:-moisture content determination
Tools: Weighing machine, reheating furnace, timer, sand heapProcedures:-
Activitiesi.
Why should 50g only be taken from the heap of sand?
ii.
Explain the reason for the weight loss?
iii. Why should moisture be regarded as detrimental to the sand moulding properties?
WORKSHOP TASK 10Sand testing methods
Objective:- mould hardness
Tools:mould hardness tester, spring waded steel ball mould specimenActivities
i. Compare this method with an indentation method in hardness test
WORKSHOP TASK 11Macro examinations of castings
Objective:-Deformation lines in steel castings
Tools: Casting specimen, cupric acid, hydrochloric acid, water, furnace, timer, porcelain dish
WORKSHOP TASK 12Demonstration of basic heat treatment on steelObjectives:Hardening Operations
Tools:Furnace, Steel specimen, Timer Oil Baths
WORKSHOP TASK 13Demonstration of basic heat treatment on steelObjectives :Tempering Operations
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Tools:Furnace, Cold work steel specimen, timer
Activities1.
Test for Ductility in the three cases above
2. Carry out the hardness test on each
3. Check also the strengths in 3 above
4.
Draw your conclusion.
WORKSHOP TASK 14Fetling operation
Objectives:Knocking off of casting, from previous week is ready for inspection.Tools:Hammer, Sledge. Hacksaw, Cating
WORKSHOP TASK 15Basic heat treatment operation
Objective:-Annealing operations
Tools:Reheating furnace, specimen, clockQuestions
a. Test the above bar for mechanical proper test.
b.
Explain why the above heat treatment is carried out.
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MECHANICAL ENGEERING DEPARTMENT
FOUNDRY & FORGING OPERATIONS
MEC. 215
PRACTICAL CONTENT
WEEK. 1.
WORKSHOP TASK 1
1.0 SAFETY PRECAUTION
1.1 OBSERVATION OF WORKSHOP SAFETY
The need for safety
Almost everyone working in a factory/school workshop has at some stage in his or her careersuffered an injury requiring some kind of treatment or first aid. It may have been a cut finger or
something more serious. He cause may have been carelessness by the victim or a colleague,defective safety equipment, not using he safety equipment provided, the true cause was mostlikely a failure to think ahead. You must learn to work safely. Your workplace will have its own
safety rule so obey them at all times. Ask if you dont understand any instruction and do report
anything which seems dangerous, damaged or faulty.
Hazards
Accidents result most commonly for the following reason:
Careless or hurried movement about the workshop causing collisions or knocking over of toolsor materials. Careless movement is particular dangerous near machinery.
Loose clothing or long hair becoming caught in revolving parts f machines, particularly the
drilling spindle.Failing to secure work properly before commencing machining.
Lack of care in handling hot metal
1.2 GENERAL RULES FOR SAFETY
All injuries, no matter how slight, should be reported immediately.
Breakages and all damage to equipment should be reported.
A file should never be used without a handle.
The correct size and dye of smiths tongs should be used when foxing short work.Hot work being transferred from forge to anvils should be held downwards close to the ground,
to minimize danger of burns resulting from accidental collisions with other students.
When preparing the pickle bath for cleaning copper and gilding metal, the acid must be added to
the water never vice versa.
Behavior
It is very important to study all the safety instructions and regulations for the work in hand, but
the craftsman should be aware of safe pratice all the time. He must study the work to be done,
the environment in which it is to be done, the tools to be used and the best method to be used. He
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must realties what the dangers will be I he adopts a wrong and thoughtless approach. He must
always have a thoughtful and positive approach to safety for his own sake and the sake of his
workmate
Fig .1 The Correct Way of dressing in the Workshop.
1.3 PERSONAL SAFETY
To avoid injuries to yourself and your workmates on the shop floor, the following points must
form part of the general code of behavior:
1.
Do not act foolishly on the shop floor.
2.
Do not operate machines that you have not used before without learning about them.
3.
Always tidy in the workshop
4.
Always protect your eyes
5.
Do not wear loose clothing
6.
Do not lift heavy loads
7.
Always protect your feet
8. Do not use hand tools that are not in good condition
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9. Make sure all moving machinery is fenced
10.Do not run in workshops
11.Do not throw tools or materials about the shop floor
12.Remember to place warning notice on faulty machines
13.Always keep away from suspended loads
14.Always cooperate with your colleagues
15.Always protect your hands.
Fig. 1 The types of Safety goggles in the Workshop.
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g. 1.2. Safety footwear and dangers in use of hand
tools.
Safety rules for particular tools, machine tools and
processes
Files:- File must not be used without handles. The tang
can cause injury to the wrist. Files with chipped tips are
also dangerous.
Spanners:- Spanners of the correct sizes must be used
for nuts to avoid injury to the user when the spanner
slips. Over size spanner also round off the edges of the
nuts. Do not extend spanner with pieces of tube becausethis strains the spanner and the fastening.
Socket Wrenches:- Allen key of the correct size must be used for socket screws (allenscrews). Worn socket wrenches must never be used as they can slip and injure the user.
Hammer:- Hammers Must be securely fixed to the handles before use. Badly fixed head can
fly off while in use and injure co workers.
Chisels:- Chisel with mushroomed heads must not be used as the sharp edges can causeinjury to the user for the protection.
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WORKSHOP TASK 2
IDENTIFY AND USE OF FOUNDRY TOOLS
OBJECTIVE:
SKILLS ACQUISITION IN USE AND HANDLING OF FOUNDRY
TOOLS
TOOLS.Moulding Boxes, Cores Box, Rammer, Trowel, Bellows Turned Spiral pins, pattern.
PROCEDURE:
(1)
THE ABOVE TOOLS HAVE BEEN CLEARLY EXPLAINED TO THESTUDENTS AFTER CLOSELY BEING EXAMINED
(2)
EACH FO THE STUDENT WAS ASKED TO DRAW THE ITEM.
(3) THEY ARE THEN TOUGHT HOW TO HANDLE EACH OF THEM.
(4) THEY ARE THEN OBSERVED ON HOW THE HANDLING OF EACH ITEMWAS MADE WHERE CORRECTIONS ARE OBSERVED MADE.
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WORKSHOP TASK 3
Selecting material for pattern making
Objective: design & manufacture a pattern for a given product.
Tools: wood, measuring tools, working tools.
PROCEDURES
1.
MAKING OF THE FULL SIZE DRAWING OF A PATTERN TOGETHER WITH
CORE PRINTS.
2. MUNUFACTURE OF THE PATTERN BLACKS AND THEIR MACHINING
(MILLING GRINDING)
3. ASSEMBLING OF THE PATTERN PARTS BY (GLUEING, PINS, TONGUE &
GROOVE JOINTS)
4. CONTROL, ACCEPTANCE & PAINTING OF THE PATTERN
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WORKSHOP TASK 4
MAJOR TYPES OF PATTERN OBJECTIVE
OBJECTIVE: IDENTIFYING VARIOUS TYPES OF PATTERN
TOOLS
f.
SINGLE (LOOSE PATTERN)
g.
GATED PATTERN
h.
COPE & DRAG.
i.
MATCH PLATE
j.
FOLLOW BOARD (SPECIAL PATTERN)
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PROCEDURE
1.
The above patterns were on display to the students by the lecturer.
2.
A careful study of each is made on each.
3.
The differences of each is noted
4.
Activity of different set of design, the above were display and the
student were asked the following questions.
1.
identify each of a, b, c, d,& e above.
2.
what is the difference between and
3.
outline the differences of a and b
4.
outline also the differences between c& d.
5.
why is e called special pattern
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WORKSHOP TASK 5
DETERMINATION OF GRAIN SIZE OF SAND.
Objectives :To Determine the Percentage Distribution
Tools: Sand (50g) Sieve Shaker.
Procedure:
1.
A 50g sample of washed and dried sand with all the day substances removed.
2.
The sample placed in the sieve shaker a set of grad ed greens numbered according to
their fineness of their mesh.
3.
The shaker is started for 10-15 minutes vibration.
4.
The shaker is then switched off and vibrations slipped.
5. The screens are discharged one after the other.
6.
The sand is distributed based on the size of the meshes as well as the gram size of the
sand
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7. Each screen is weighed to obtain the grain fineness =
screeninretainnedsamdofpercentagetotal
producttotal
......
.
S/No Sieve no. Opening mm Amount gm Retained %
1 6
2 12
3 20
4 30
5 40
6 50
7 70
8
9
10
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S/No Sieve no. Opening mm Amount gm Retained % Multiplier
1 6 3.353 0 0 3 0
2 12 1.651 0 0 5 0
3 20 0.8533 0 0 10 0
4 30 0.590 0 0 20 0
5 40 0.414 1.5 3.0 30 90
6 50 0.295 0.3 0.6 40 24
7 70 0.208 2.5 5.0 50 250
8 100 0.147 0.5 1.0 70 70
9 140 0.104 8.20 16.40 100 1640
10 200 0.074 13.00 26.0 140 3640
11 270 0.053 12.80 25.60 200 5120
12 Pan 5.60 11.20 300 3360
Total 44.40 88.80 14.194
AFS grain finess = 1608.88
14194=
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WORKSHOP TASK 6Determination of the amount of clay in foundry sand
Objective:-Clay content determination
Tools:50g clay sample, distilled water caustic soda washed bottle
Procedures:-1.Put 50g sample of dried clay in wash bottle
2.Add 475ml distilled water and 25ml of caustic soda solution
3.
Agitate 5mm with mechanical stirrer or shaker, dilute with water to a height of 6 (marker
bottle) and let settle 10 min
4.
Siphon off 5 water dilute again to 6 height and let settle for 10 min
5.
Siphon off 5 water dilute again to 6min height and let settle for 5 min
6.
Repeat step 5 enough times so that after standing 5min, the water is clear
7.Remove the remaining sand grains from the bottle, dry and weigh, the loss in weight of
the original 50g sample multiplied by 2 give the AFS clay percentage in the sand.
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WORK SHOP TASK 7
MIXING & MOULDING OPERATIONS
OBJECTIVE
GREEN SANDMIXING AND MOULDING PROCEDURES
TOOLS,
SAND, CLAY, WATER, BINDERS ADDITIVES MOULDING BOX RAMMER,
TROWEL, PATTERN, SPRING PINS BELLOWS
PROCEDURES:
(1)
Sand and clay both weighed accordingly are then mixed thoroughly
(2)
Binders (Bentouls) and Additive are also added on.
(3)
Water is also weighed accordingly and are mixed thoroughly.
(4) The mixing is then completed.
(5) Pattern is then placed on a moulding board with the flat face of the split female pattern
facing down.
(6) Moulding box (Drag) is placed on the moulding board with the pattern at the centre.
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(7) Facing sand (Charcoal dust) is dusted on the face of the pattern.
(8) Backing sand (sand, clay, water , Binder and Additives ) is filled in the moulding box.
(9) Rammer is used to compact the Backing sand, with addition of more where possible.
(10) Strike off bar (straight edge) is used to remove the excess sand on the
moulding box.
(11) The moulding box is now turnover with face of the female pattern facing upwards
(12) The 2nd
part (male) pattern is aligned on the female pattern
(13)
The cope (moulding) is guided on the Drag by the use of locating pins.
(14)
Procedures 7, 8, 9 and 10 are repeated while the spring pins and user pins were in
positioned.
(15)
Moulding completed the moulding box is now carefully opened for the extraction
of the pattern
(16)
Channels are then careful cut after pattern extraction. Loose san inside the cavity
are removed by the use of bellow
(17)
The cope and Drag part of the molding boxes are closed again by the help of the
guiding pins.
The cavity is ready for the molten metal.
This procedures is closely followed by each of the student.
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WORKSHOP TASK 8
MOULDING AND PREPARATION OF CORES
Objectives:Core Making
Tools:Sand, organic Binders, core boxes, core plates
Procedure:
1.
Core Box is filled with core mixtures
2. filled co re box is rimmed and struck off
3.
The core is transferred to a co re plate for baking
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4. The plate plus the core is placed in and oven for baking at 6500F to obtain the
strength of the organic binders
5. The baking time is 2-6hours
6.
Cleaning of the cores after baking
7.
The cores are Joined (halves) by the use of core paste (talk, mollases, dextruin flour
water etc.) can be used.
Question
1.
Outline properties of co re mixtures.
2.
Outline 5 different uses of cores in casting
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WORKSHOP TASK 9Sand Testing MethodsObjectives:-Moisture content determination
Tools: Weighing machine, reheating furnace, timer, sand heap
Procedures:-1. Weigh 50g of the sand heap with the weighing balance.
2. The reheating furnace is then switched on with the sand inside.
3.
The temperature of the reheating furnace is 220F for 2hrs or.
4. Until a constant weight is recorded of the sand.
5.
The reheating furnace is then switched off as allowed to cool.
6.
The sand is reweighted to find out the weight lost.
7.
The lost in weight multiplied by 2 gives the percentage of moisture in the sand.
Activitiesiv. Why should 50g only be taken from the heap of sand?
v. Explain the reason for the weight loss?
vi.
Why should moisture be regarded as detrimental to the sand moulding properties?
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WORKSHOP TASK 10Sand testing methodsObjective:- Mould hardness
Tools:Mould hardness tester, spring waded steel ball mould specimen
Procedures:-1. The specimen to be tested is placed under the mould hardness tester.
2. The spring waded steel ball makes an indentation (mark) on the mould (specimen)
3.
If the steel ball sinks completely in the mould the reading indicates zero
4. If the steel ball makes no marks, the reading on the tester indicates 100.
5. Hardness reading are taken on the standard sand specimen as an additional test on the
specimen.
Activities
ii.
Compare this method with an indentation method in hardness test
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WORKSHOP TASK 11Macro examinations of castings
Objective:-Deformation lines in steel castings
Tools: Casting specimen, cupric acid, hydrochloric acid, water, furnace, timer, porcelain dish
Procedures:-1. The steel specimen is taken from steel casting
2. Wet the surface with a swab or solution containing cupric acid and hydrochloric acid
3.
The specimen is heated to 200-2500C in the furnace for hour
4. The etching time is 2-24 hours, until the structure is evident.
5. The specimen is removed, swilled in water then in methylated spirit and dried
6.
Success in etching depends on experience, largely, hence initial failures should not
discourage the examiner.
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WORKSHOP TASK 12
DEMONSTRATION OF BASIC HEAT TREATMENT ON STEEL
Objectives :Hardening Operations
Tools:Furnace, Steel specimen, Timer Oil Baths
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Procedure:
1. The Steel (specimen) is placed in the furnace and is switched on.
2.
The rise in temperature is carefully observed
3. Hardening temperature for Hypoeuletic steel is 30-500C above the upper critical
temperature while for Hypereulectic steel is 30-500 above the lower critical
temperature.
4. it is then held at tha6t temperature (soak) for some time to allow transformatic to
take place.
5.
The furnace is then opened and the specimen is drop in the oil Bath, to allow rapid
cooling to take place.
6.
This is allowed to cooled to room temperature.
Observation
All mechanical properties test for the steel can be carried
Try 1 or 2 tests and record your observations.
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WORKSHOP TASK 13
DEMONSTRATION OF BASIC HEAT TREATMENT ON STEEL
Objectives :Tempering Operations
Tools:Furnace, Cold work steel specimen, timer
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Procedure:
1.
The steel specimenis placed inside a reheating furnace and is then switched on
2.
The rise in temperature is carefully monitored.
3. Low temperature tempering is achieved at 2050C
4.
Medium temperature tempering is achieved at 350-5000C
5. High temperature temperiong between 5000680
0C
Territe- Cementite Mixtures
6. The heating time is about one hour
7. The furnace is then switched off
8.
The steel is either taken out or let in the furnace to cool down to room temperature.
Activities
5.
Test for Ductility in the three cases above
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6. Carry out the hardness test on each
7.
Check also the strengths in 3 above
8. Draw your conclusion.
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WORKSHOP TASK 14
FETLING OPERATION
Objectives:Knocking off of casting, from previous week is ready for inspection.
The following operations can be carried out
1.
Removal of gates and risers
2. Surface cleaning and interior of casting
3. Trimming, the removal of funs, wires and protuberances (extensions) at gates and
risers evocations
4. Finishing, final surface cleaning
5.
Inspection.
Tools:Hammer, Sledge. Hacksaw, Cating
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Procedure:
1. Gates and risers are removed by flogging in the case of Brittle material. For Ductile
material mechanical cut off, touch cutting
2. Surface cleaning is
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WORKSHOP TASK 15Basic heat treatment operation
Objective:-Annealing operations
Tools: Reheating furnace, specimen, clock
Procedures:-1.
The steel to be annealed is 1stplaced in the furnace with it switched on.
2.
The rise in temperature is moistured carefully.
3.
When the steel temperature in the furnace reaches 9100C, austenitic range, the furnace isthe
4.
The furnace at thus temperature is switched off.
5. The steel is then left inside the furnace till it cools down to worm temperature.
6. The steel bar can be taken and tested for mechanical properties
Activitiesc.
Test the above bar for mechanical proper test.
d.
Explain why the above heat treatment is carried out.
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