Manufacturing Technology Casting PDF

Summary

This document discusses various aspects of casting processes, including classifications, steps, and important terms. It covers topics such as the classification of casting processes, the steps involved in metal casting, gating systems, important casting terms, and core making.

Full Transcript

Manufacturing Technology
Casting
Classification of casting process

Shell, investment, plaster,
ceramic casting

Reusable mold - Gears,
Pistons, Wheels
 Manufacturing Technology
Casting
Pouring
Metal casting
Quickest
Least expensive
Near net shape product
 Manufacturing Technology
Metal Casting Process
Casting is one of the oldest manufacturing process. It is the first step in making most of the products. It
is a manufacturing process in which a liquid material is usually poured into a mold, which contains a
hollow cavity of the desired shape, and then allowed to solidify to build part.

Steps:
- Making mould cavity
- Material is first liquefied by properly heating it in a suitable furnace.
- Liquid is poured into a prepared mould cavity
- allowed to solidify
- product is taken out of the mould cavity, trimmed and made to shape

We should concentrate on the following for successful casting operation:
(i) Preparation of moulds of patterns
(ii) Melting and pouring of the liquefied metal
(iii) Solidification and further cooling to room temperature
(iv) Defects and inspection
 Manufacturing Technology
Casting
Gating system: Assembly of sprues, runners, gates and individual casting cavities in the mold.
Gate: An opening between the runner and part cavity that starts the molten metal into the cavity and feeds the
casting as it solidifies.
Riser: A reservoir built into a metal casting mold to prevent cavities due to shrinkage.
Runner: directs the molten metal towards the individual part of mold cavity.
Blind (closed/blink) Riser: A blind riser is a venting system used in casting to feed different parts of casting and improve
casting yield. They are usually located in the lower sections of the casting or hidden beneath the top risers
Core: A core is a sand or metal insert used to shape any
part of a casting that cannot be shaped by the primary
removable pattern.
 Manufacturing Technology
Important casting terms
Flask: A metal or wood frame, without fixed top or bottom, in which the mould is formed.
Depending upon the position of the flask in the moulding structure, it is referred to by various
names such as drag – lower moulding flask, cope – upper moulding flask, cheek – intermediate
moulding flask used in three piece moulding.

Pattern: It is the replica of the final object to be made. The mould cavity is made with the help
of pattern.

Parting line: This is the dividing line between the two moulding flasks that makes up the mould.

Moulding sand: Sand, which binds strongly without losing its permeability to air or gases. It is a
mixture of silica sand, clay, and moisture in appropriate proportions.

Facing sand: The small amount of carbonaceous material (kerogen, and crystalline graphite)
sprinkled on the inner surface of the mould cavity to give a better surface finish to the castings.
 Manufacturing Technology
Important casting terms
Core: A separate part of the mould, made of sand and generally baked, which is used to create openings and
various shaped cavities in the castings.

Pouring basin: A small funnel shaped cavity at the top of the mould into which the molten metal is poured.

Sprue: The passage through which the molten metal, from the pouring basin, reaches the mould cavity. In many
cases it controls the flow of metal into the mould.

Runner: The channel through which the molten metal is carried from the sprue to the gate.

Gate: A channel through which the molten metal enters the mould cavity.

Chaplets: Chaplets are used to support the cores inside the mould cavity to take care of its own weight and
overcome the metallostatic force (lift force to avoid swell).

Riser: A column of molten metal placed in the mould to feed the castings as it shrinks and solidifies. Also known as
“feed head”.

Vent: Small opening in the mould to facilitate escape of air and gases.
Dross: non-metal inlusion; accompanied by a gas bubble.
(Turbulence can cause mold erosion)
 Gating System
In-gate - Ingate is the end of the path and where the mold cavity begins. It leads the liquid metal that flows from
the runner into the mold cavity. Depending on the characteristics of the casting, there are different number of
ingates.
There are two types of gates: big gate and small gate. The small gate is used for slowing solid casting, while the big
gate is for fasting solid casting.
The gate should not have sharp edges as they can crack during pouring so that the sand can be caught in the
molten metal into the mold cavity.

Types of Gate in Casting
Top gate: the gate is in the cope mold part.
The disadvantages of top gate are high metal flow
turbulence, poor casting surface.
Bottom gate: the gate is in the drag mold part. In the
bottom gate, liquid metal fills the lower part of the mold
cavity and gradually increases into the mold wall.
The bottom gate has the advantage of less chaos and
sand erosion than the top gate.
The downside of the bottom gate is that the metal flow can be clogged due to solidification before the mold is full.
The temperature range generated by the bottom gate is difficult to reach the standard causing uneven
solidification.
Parting line side gate: is the gate located along the parting line. The compartment below the parting line is filled
with liquid metal through top gating, while the compartment above the parting line is filled with the bottom gating.
This gate type solves the disadvantages of the two types above.
Splash Core: It prevents damage to the mold by the
inflowing metal.
Skim Bob: It helps in trapping impurities of eroded sand
and thus prevents them from going into the mould
cavity.
 Gating System
Spure-base well - The sprue well or base changes the direction of molten metal by right-angle and sends it to the
runner. It is also known as a choke. It is a reservoir at the bottom of a sprue in a casting gating system that holds
molten metal and controls the rate at which it flows.
The runner takes the metal from the sprue to close to the casting. It is the part of a sprue that's rotated at a right
angle to the runner to prevent the liquid metal from falling freely.
A sprue is a vertical channel that's part of the gating system in gravity diecasting, and it's used to pour molten
metal into a mold.
The sprue is wide at the top, where it receives liquid metal from the pouring basin, and narrows as it goes down to
the runners. The sprue's cross section can be circular, square, or rectangular, but circular is preferred.
 Runner extension - The runner extension (blind end) has multiple functions and they are as follows: Runner
extension should trap the slag, dross and dirt in the mould cavity. The other function of the runner extension is to
absorb all kinetic energy built giving a smoother flow to the molten metal entering the mould cavity.

The extension is usually 1–12 in (2.5–30.4 cm) long. When molten metal flows through the sprue to the runner, it
hits the extension first, trapping slag that's lighter than the metal. The slag then can't flow into the mold cavity.
With the Unpressurized Gating System, this system is called a “Choke control system” because
the choke controls the flow of the metal.
 (Outside air will rush inside to balance pressure)

This system is called a “Gate control system” because ingates control the flow of the metal.
Gating ratio for various materials

Materials Gating ratio
1:2:1
1:1.2:2
1:2:4
Aluminum
1:3:3
1:4:4
1:6:6
Aluminum bronze 1:2.88:4.8
1:1:1
Brass 1:2:3
1.6:1.3:1
2:8:1
Copper
3:9:1
1.15:1.1:1
Ductile iron 1.25:1.13:1
1.33:2.67:1
Casting
 Casting – Components

Typical metal match plate pattern used
in sand casting

Taper used in patterns for ease of
removal from the sand mold
Casting
Cores – made of sand aggregates
 Manufacturing Technology
Casting
Cores – made of sand aggregates
› Possess:
Strength
Permeability
Ability to withstand heat
Collapsibility
› Anchored by core points
› Chaplets are used to keep the core from moving

*Permeability: ability for fluids (gas or liquid) or specific chemicals to flow through the material
C > 2%

C -.75%
Cracks
Casting
Type of base sand Binders or Binding Agents
Silica sand The binding agents are the glue that
Olivine sand holds the sand particles together. The
following are the most frequent types of
Chromite sand binders:
Zircon sand Clay and water
Chamotte sand Oil
Resin
Sodium silicate
Casting
Sand making
Plastic mixture of sand grains, clay (bentonite - soft plastic clay consisting
predominantly of montmorillonite, a fine particle-sized hydrous aluminum
silicate), water and other materials such as graphite powder: molding sand,
Silica sand.
Green sand: 70%
sand + 30% clay +
moisture

Bentonite powder
Sand muller
few times depending on particular standard, like three times, etc.
The quantity of heat necessary to
change 1g of a solid to a liquid with
no temperature change (latent
heat/enthalpy of fusion of
substance)
Specific heat: The quantity of heat required to raise the temperature of 1gm of a substance by 1 degree celsius.
Casting

Sand
casting
steps
 Manufacturing Technology
Casting
Steps for sand casting (Fundamentals)
1. Pattern making
2. Sand making
3. Mold making
4. Core making
5. Metal making Sand casting
6. Pouring
7. Solidification
8. Machining
9. Quality investigation

Interestingly, every steps boils down to solidification…..and everything is
intimately related…
 Manufacturing Technology
Casting
Complex, 3-D shapes
Near net shape
Low scrap
Relatively quick process
Near Net Shape
Intricate shapes
Large hollow shapes
No limit to size
Reasonable to good surface finish

Near Net Shape
 Manufacturing Technology
Casting Engine manifold

Turbine blade

Dhokra art form
Casting - Cooling curve for pure metal

Isotherm: same temperature at all point
Recalescence: increase in temperature occurs while cooling metal when
change in structure with increase in thermal energy/entropy occurs.
 Casting
Microstructure

Columnar grains are long, thin, Equiaxed crystals are
coarse grains created when a crystals that have axes of
metal solidifies approximately the same
length in all direction.
Casting
Dendrite microstructure
It is a tree-like structure of crystals growing as molten metal solidifies. The
process is too quick to form dendrites. Rapid dendrite growth is realized by
the rapid movement of the liquid/solid interface toward the undercooled
melt.
 Casting
Gibbs free energy: is a
quantity used to
measure the maximum
amount of work done
in a thermodynamic
system when the Undercooling/Sup
temperature and ercooling: When a
pressure are constant. substance is
G = H – TS (kilojoules per cooled below its
mole)
freezing point
Enthalpy, H (sum of without it
internal energy + Pressure becoming a solid.
x Volume) of the system –
Temperature x times the
entropy (randomness)
H = E + PV

If G ~ Negative =
Spontaneous Reaction

If G ~ Positive = Not
Spontaneous Reaction
 Casting - Solidification
The probability of nucleation occurring at point in the parent phase is
same throughout the parent phase
In heterogeneous nucleation there are some preferred sites in the parent
phase where nucleation can occur

*Nucleation: phase change
in metal
Casting
Direction solidification
In order to avoid shrinkage problem
Furthest section solidify first and riser solidifies last
Directional solidification aspect of freezing and methods by which it is
controlled……..(chills are used to incorporate directional solidification)
Chills – internal or external heat sinks that cause rapid freezing in certain
regions of the casting (thin section where V/A ratio is highest)
 The solidus is the highest
temperature at which an
alloy is solid.
Freezing range The liquidus is the
(Slurry State) temperature at which an
alloy is completely melted.
 Phase change and shrinkage

Shrinkage cavity: This defect is a
depression in the surface or an
internal void in the casting, caused by
solidification shrinkage that restricts
the amount of the molten metal
available in the last region to freeze. It
often occurs near the top of the
casting, in which case it is referred to
as “pipe”. The problem can often be
solved by proper riser design.
 Manufacturing Technology
Casting
Shrinkage
Graphitization is a process that transforms
carbonaceous materials into graphite through heat
treatment. The process can involve heating
materials to temperatures of over 2,500°C in a
controlled environment. It converts the graphene
layers into three-dimensionally ordered crystalline
graphite.
Vacuum molding, is a
manufacturing process that
uses vacuum pressure to
create plastic parts by
stretching a heated sheet of
plastic over a mold. The
process is often used to make
lightweight, three-dimensional
objects like trays, packaging,
and automotive parts.
Clamp: A plastic sheet is placed
in an open frame and clamped
in place.
Heat: The plastic is heated until
it becomes soft and pliable.
Vacuum: The frame with the
plastic is lowered over a mold
and a vacuum on the other
side pulls the plastic into the
mold. The vacuum holds the
plastic against the mold until it
takes the desired shape.
Eject: The plastic is then
ejected from the mold.
Vacuum molding
 Other Casting Process
Investment casting
Investment casting is a metalworking
process that uses a ceramic shell built
over a wax pattern to produce parts
with extraordinarily uniform and
smooth surfaces.
The wax pattern is produced from an
aluminum die. The final products of
investment casting have very small
parting lines or mold half-marks that aggregates, a binder, and water
are removed as part of the after-
casting processes.
The final parts require a certain
amount of secondary finishing to
ensure their smoothness and
uniformity.
Autoclave machine
 Other Casting Process
Permanent mold casting

1. Mold is preheated and
coated
2. Cores (if used) are inserted
and mold is closed
3. Molten metal is poured
into the mold, where it
solidifies
4. Mold is opened
5. Finished part received
 Other Casting Process
Die casting
Die casting is a widely used permanent
mould metal casting process, in which
molten metal is forced into the mould
called Dies.

Pressures ranging from 0.7 to 700 MPa,
where it solidifies into a metal cast.

Die castings, sometimes known as
pressure die casting, are used in
automotive housings, appliance
components, and toys.
Impact (injection) molding
 Casting
Defects in casting

(large cavity or hole) (Erosion of mold parts by liquid metal)
(Shallow blow due to vent issue) (irregular line or crack)
(contaminants) (Surface blowholes) (Low strength mold, push away the walls)
(cracking on sand (unable to flow due to low temperature)
upper surface) (molten material begun to solidify
(Slag inclusion)
before fully filling the mold)
Due to residual stresses, material fail as it
cools
(long, broad shallow depression)
Mismatching of the top and
bottom parts of a casting
*Scab: Rough, thin layer of a metal, protruding above the casting surface, on top of a thin layer of sand.
Defects in casting
 Manufacturing Technology
Casting
Metals processed by casting
Sand casting – 60%
Permanent mold casting – 11%
Die casting – 9%
Investment casting – 7%
Centrifugal casting – 7%
Shell mold casting – 6%
 Manufacturing Processes
References…
1. A. Ghosh, and A. K. Mallik, Manufacturing Science, Affiliated East-West
Press.
2. P.N. Rao, Manufacturing Technology-Metal Cutting and Machining, Tata
McGraw Hill, Publishing Company.
3. S. Kalpakijain, Manufacturing Engineering and Technology, Pearson
Education India Edition, 2013.