shell moulding
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Oct 09, 2015
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About This Presentation
Shell moulding
Slide Content
SHELL MOULDING
PRODUCTION PROCESS
-VISHNU RC VIJAYAN
PRODUCTION PROCESS
-VISHNU RC VIJAYAN
MOULDING
Moulding is the process of manufacturing, by shaping manufacturing
by shaping pliable raw material using applicable raw material using a
rigid frame or model called a rigid frame or model called a pattern
Moulding is the process of manufacturing, by shaping manufacturing
by shaping pliable raw material using applicable raw material using a
rigid frame or model called a rigid frame or model called a pattern
INTRODUCTION
Shell moulding, also known as shell-mould casting, is an expendable mould
casting process that uses a resin covered sand to form the mould
As compared to sand casting, this process has better dimensional accuracy, a
higher productivity rate, and lower labour requirements
It is used for small to medium parts that require high precision.
Shell mould
casting is a metal casting process similar to sand casting, in that molten
metal is poured into an expendable mould.
A reusable pattern allows for higher production rates, while the disposable
moulds enable complex geometries to be cast
Shell moulding, also known as shell-mould casting, is an expendable mould
casting process that uses a resin covered sand to form the mould
As compared to sand casting, this process has better dimensional accuracy, a
higher productivity rate, and lower labour requirements
It is used for small to medium parts that require high precision.
Shell mould
casting is a metal casting process similar to sand casting, in that molten
metal is poured into an expendable mould.
A reusable pattern allows for higher production rates, while the disposable
moulds enable complex geometries to be cast
Shell mould casting requires the use of a metal pattern, oven, sand-resin
mixture, dump box, and molten metal
Shell mould casting allows the use of both ferrous and non-ferrous metals,
most commonly using cast iron, carbon steel, alloy steel, stainless steel,
aluminium alloys, and copper alloys
Typical parts are small-to-medium in size and require high accuracy, such as
gear housings, cylinder heads, connecting rods, and lever arms
mixture, dump box, and molten metal
Shell mould casting allows the use of both ferrous and non-ferrous metals,
most commonly using cast iron, carbon steel, alloy steel, stainless steel,
aluminium alloys, and copper alloys
Typical parts are small-to-medium in size and require high accuracy, such as
gear housings, cylinder heads, connecting rods, and lever arms
PROCESS
Shell Moulding involves the following processes
Pattern creation - A two-piece metal pattern is created in the shape of the
desired part, typically from iron or steel.
Mould creation - First, each pattern half is heated to 175-370 °C (350-700 °F)
and coated with a lubricant to facilitate removal. Next, the heated pattern is
clamped to a dump box, which contains a mixture of sand and a resin binder.
Mould assembly - The two shell halves are joined together and securely
clamped to form the complete shell mould. If any cores are required, they are
inserted prior to closing the mould. The shell mould is then placed into a flask
and supported by a backing material.
Shell Moulding involves the following processes
Pattern creation - A two-piece metal pattern is created in the shape of the
desired part, typically from iron or steel.
Mould creation - First, each pattern half is heated to 175-370 °C (350-700 °F)
and coated with a lubricant to facilitate removal. Next, the heated pattern is
clamped to a dump box, which contains a mixture of sand and a resin binder.
Mould assembly - The two shell halves are joined together and securely
clamped to form the complete shell mould. If any cores are required, they are
inserted prior to closing the mould. The shell mould is then placed into a flask
and supported by a backing material.
Pouring - The mould is securely clamped together while the molten metal is
poured from a ladle into the gating system and fills the mould cavity.
Cooling - After the mould has been filled, the molten metal is allowed to cool
and solidify into the shape of the final casting.
Casting removal - After the molten metal has cooled, the mould can be
broken and the casting removed. Trimming and cleaning processes are
required to remove any excess metal from the feed system and any sand from
the mould.
poured from a ladle into the gating system and fills the mould cavity.
Cooling - After the mould has been filled, the molten metal is allowed to cool
and solidify into the shape of the final casting.
Casting removal - After the molten metal has cooled, the mould can be
broken and the casting removed. Trimming and cleaning processes are
required to remove any excess metal from the feed system and any sand from
the mould.
UTILITIES REQUIRED FOR THIS PROCESS
Metal Pattern
Oven
Sand-resin mixture
Dump box
Molten Metal
APPLICATIONS
Crankshaft
Model tubing Fabrications
Automotive components
Hydraulic control Housing etc
Metal Pattern
Oven
Sand-resin mixture
Dump box
Molten Metal
APPLICATIONS
Crankshaft
Model tubing Fabrications
Automotive components
Hydraulic control Housing etc
ADVANTAGES & DISADVANTAGES
One of the greatest advantages of this process is that it can be completely
automated for mass production
The high productivity, low labour costs, good surface finishes, and precision
of the process can more than pay for itself if it reduces machining costs
One disadvantage is that the gating system must be part of the pattern
because the entire mould is formed from the pattern, which can be
expensive.
Another is the resin for the sand is expensive, however not much is required
because only a shell is being formed
One of the greatest advantages of this process is that it can be completely
automated for mass production
The high productivity, low labour costs, good surface finishes, and precision
of the process can more than pay for itself if it reduces machining costs
One disadvantage is that the gating system must be part of the pattern
because the entire mould is formed from the pattern, which can be
expensive.
Another is the resin for the sand is expensive, however not much is required
because only a shell is being formed
PATTERN CREATION
A two piece metal pattern is created in the shape of the the desired part
typically from iron and steel.
Other materials are sometimes used such as aluminum for low volume
production or graphite for casting reactive material.
A two piece metal pattern is created in the shape of the the desired part
typically from iron and steel.
Other materials are sometimes used such as aluminum for low volume
production or graphite for casting reactive material.
Mould Creation
First, each pattern half is heated to 175°C - 370°C and coated with a
lubricant to facilitate removal.
Next, the heated pattern is clamped to a dump box which contains a mixture
of sand and resin binder.
The dump box inverted allowing this sand-resin mixture to coat the pattern.
The heated pattern partially cures the mixture which now forms a shell
around the patterns.
Each pattern half and surrounding shell is cured to completion in anoven and
then the shell halves are joined together.
First, each pattern half is heated to 175°C - 370°C and coated with a
lubricant to facilitate removal.
Next, the heated pattern is clamped to a dump box which contains a mixture
of sand and resin binder.
The dump box inverted allowing this sand-resin mixture to coat the pattern.
The heated pattern partially cures the mixture which now forms a shell
around the patterns.
Each pattern half and surrounding shell is cured to completion in anoven and
then the shell halves are joined together.
MOULD ASSEMBLY
The two shell halves are joined and securely clamped to form the complete
shell mould
If any cores are required, they are inserted prior to closing the mould
The shell mould is then placed into a flask and supported by a backing
material
The two shell halves are joined and securely clamped to form the complete
shell mould
If any cores are required, they are inserted prior to closing the mould
The shell mould is then placed into a flask and supported by a backing
material
MOULD ASSEMBLY
The mould is securely clamped together while the molten is poured
from a ladle into the gating system and fills the mould cavity
Pouring
from a ladle into the gating system and fills the mould cavity
Pouring
COOLING
After the mould has been filled the molten metal is allowed to solidify into
the shape of the final casting
After the mould has been filled the molten metal is allowed to solidify into
the shape of the final casting
CASTING REMOVAL
After the molten metal has been cooled , the mold can be broken and casting
can be removed
Trimming and cleaning process can be used to remove any excess metal from
the feed system and sand from the mould
After the molten metal has been cooled , the mold can be broken and casting
can be removed
Trimming and cleaning process can be used to remove any excess metal from
the feed system and sand from the mould
REFERENCES
WEBSITE
1. www.academia.edu/6595783/Shell_Molding_Process_---_Pasa_Yaman
2. www.thelibraryofmanufacturing.com/shell_mold_casting.html
3. www.custompartnet.com/wu/shell-mold-casting
4. engineeringhut.blogspot.com/2010/10/shell-moulding.html
WEBSITE
1. www.academia.edu/6595783/Shell_Molding_Process_---_Pasa_Yaman
2. www.thelibraryofmanufacturing.com/shell_mold_casting.html
3. www.custompartnet.com/wu/shell-mold-casting
4. engineeringhut.blogspot.com/2010/10/shell-moulding.html
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