Basic Manufacturing-Casting-MRR-UP TO MID SEM.pdf

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ME204
BASIC MANUFACTURING PROCESS
(4-0-0) 4

Dr. RAMESH M R
Professor
Department of Mechanical Engineering
1
Classification of Manufacturing process
Examples
Examples
Examples
Examples
Examples
Steps involved in casting
i. Pattern making
ii. Preparation of moulds
iii.Core Making
iv.Melting and pouring the molten material
v. Solidification and further cooling to room
temperature
vi.Cleaning, Inspection, and defects if any remove
Steps involved in casting
Steps involved in casting
Steps involved in casting
Steps involved in casting
Steps involved in casting
Steps involved in casting
Steps involved in casting
Steps involved in casting
Terms
Terms
Selection of Manufacturing Process
Selection of Manufacturing Process
Cast Products
Advantages of casting
Complex shapes, internal cavities and hollow sections produced

Quick process and Suitable for mass production

No limit on size, shape and weight of the product, Very large parts

produced economically

High strength and rigid parts obtained as casting exhibit uniform

properties in all the direction
Limitations
Dimensional accuracy and surface finish does not meet exactly

Presence of defects in cast parts

Not economical for small parts

Properties are infirier when compare to formed parts

Labor intensive
PATTERNS
MATERIALS USED FOR PATERN

▪ Wood
▪ Metal
▪ Plastics
▪ Gypsum
▪ Wax
 Selection of pattern material

Size and shape of the casting

Dimensional accuracy of casting

Number of castings required

Casting process to be used

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 Properties of pattern material

Machinability

Wear resistance

Strength

Dimensional stable

Resistance to variation in temp. & humidity

Repairability

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 Wood

Low cost

Light in weight

Easily available

Ease of fabricating to many shapes

Absorbs moisture and dimensions will change

Lower life

Suitable for production of small quantity castings

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 Metal

Metals used → Al, CI, Brass, etc.

Used for mass production

High strength

More life compared to wood patterns

Suitable for production of large castings

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 Plastics Wax

Low weight Used for prototype castings

Easier formability Withdrawal is easy

Do not absorb moisture Disposable patterns

Good corrosion resistance

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TYPES OF PATTERNS
Single Piece Pattern

Made of wood and inexpensive
Used for casting simple shape
Low quantity production
TYPES OF PATTERNS
Split Pattern

Two/Three piece pattern
Used for casting intricate shapes
Easy removal of pattern from the mould
TYPES OF PATTERNS
Loose Piece Pattern

Patern with complex shapes , when it is difficult to withdraw from the mould, two or more
loose pieces are assembled together to form a single patern
TYPES OF PATTERNS
Match Plate Pattern

Both halves of pattern mounted on single plate
Match plate → metal/wood; Pattern → metal
Mass production of small castings with accuracy
TYPES OF PATTERNS
Gated Pattern

Made of metal & produce multi-cavity in one mould
Gates and runners integral with pattern
Productivity is more
TYPES OF PATTERNS
Sweep Pattern

Sweep the desired shape in the mould
Produce symmetrical shaped large size castings
E.g. Bell shape/Cylindrical shape
TYPES OF PATTERNS
Skeleton Pattern

Skeleton → made of strips of wood → forms the
outline of desired shape of casting
Skeleton type → depends on geometry of job
Large size castings in small quantities produced
 Pattern allowances

Shrinkage allowance

Machining allowance

Draft allowance

Shaking allowance

Distortion allowance
Pattern allowances depends on:

✓ Design of a product

✓ Type of mould material

✓ Shrinkage characteristic of material to be cast
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Shrinkage Allowances
 Machining Allowance

Provided to compensate for rough surface of the cast product
when taken out of the mould cavity

Machining allowance → excess dimension of casting to be
machined/finished

Machining allowance depends on:

✓ Size and shape of a casting

✓ Type of cast material

✓ Degree of finish required
 Draft/ Taper Allowances

Taper allowance → taper provided on the vertical faces of pattern
Provided to facilitate easy withdrawal of pattern from the mould
Taper allowance depends on:Size and shape of a casting,
Type of moulding, Intricacy of job/product
Draft → typical range: 1° to 3°
 Distortion Allowance

Provided to compensate for distortion of weaker sections of
casting when just solidified

Equal amount of distortion has to be given to a pattern in a
direction opposite to that of likely distortion direction
Rapping and Shake Allowance
Provided to compensate for slight enlargement of mould cavity
when pattern is rapped all around vertical faces before withdrawal

Slight enlargement results in increase in size of final casting

Dimension of original pattern has to be reduced → -ve allowance
has to be provided to the pattern → Shaking allowance
 Moulding Sand
Sand used to make moulds and strongly bonded together in flask
Moulding sand = Base sand + Binder + water + Additives
Base Sand
Base Sand
Properties or Requirements of Base Sand
Properties or Requirements of Base Sand
Binders
Additives
Additives
Types of moulding sand

Green sand

Sand contains moisture → silica sand + water (6-8%) + clay (18-

30%)

Used for making small to medium sized castings

Rate of production of cast product is high
Types of moulding sand
Dry sand

Dry sand → completely dried green sand

Higher strength than green sand mould

Used for making medium to large sized castings

Provides better dimensional accuracy and surface finish to casting

Disadvantage → More expensive and likely to be distorted
Types of moulding sand
Loam sand

Loam sand → silica sand + water + clay (50%)

Completely dried before casting process

Used for making heavy castings → bells; large cylinders; chemical

plant pans

Disadvantage → time consuming
Types of moulding sand

Facing sand

Facing sand → silica sand + clay + coal dust

Used next to the pattern and in contact with molten metal

Coal dust prevents the molten metal from entering the sand

Produces clean and smoother casting surface
Types of moulding sand
Parting sand
Parting sand → Fine dry silica sand (Non-sticky)

Sprinkled on the pattern and parting surfaces of mould halves

Easy withdrawal of pattern and separation of cope and drag at
parting surface

Core sand

Core sand → Silica sand + Oil

Used for making the cores
Types of Sand Moulds

GREEN SAND MOULD

DRY SAND MOULD
Types of Sand Moulds

SKIN DRIED MOULD

NO-BAKE SAND MOULD
METHODS OF SAND MOULDING

1. Bench Moulding
2. Floor Moulding
3. Pit Moulding
4. Machine Moulding

Pit Moulding
Machine Moulding
JOLT SQUEEZE MACHINE
JOLT SQUEEZE MACHINE
Machine Moulding
SAND SLINGER
SPECIAL MOULDING PROCESS
SHELL MOULDING
SHELL MOULDING
SHELL MOULDING
CARBON DIOXIDE MOULDING
CARBON DIOXIDE MOULDING
INVESTMENT MOULDING
INVESTMENT MOULDING
INVESTMENT MOULDING
INVESTMENT MOULDING
CONTINUOUS CASTING
CONTINUOUS CASTING
CENTRIFUGAL CASTING
TRUE CENTRIFUGAL CASTING
SEMI CENTRIFUGAL CASTING
CENTRIFUGING CASTING
GRAVITY DIE CASTING
GRAVITY DIE CASTING
PRESSURE DIE CASTING
HOT CHAMBER PRESSURE DIE CASTING
HOT CHAMBER PRESSURE DIE CASTING
COLD CHAMBER PRESSURE DIE CASTING
COLD CHAMBER PRESSURE DIE CASTING
SQUEEZE CASTING
SQUEEZE CASTING
SLUSH CASTING
SLUSH CASTING
Green Sand Flask-less moulding
Green Sand Flask-less moulding
Plaster of Paris Flask-less moulding