Pattern and Their Types

By using casting process along with some specifications the replica of an object is made, which is known as pattern.

Different types of patterns are used in the casting process which depends upon the configuration of casting they are divided into 8 types. They are:

 

Single piece pattern     

 

Single piece pattern

The single piece patterns are used when the job is very simple. In this type of methods there are no withdrawal problems.

Cope and drag pattern

The drag and cope halves of a split pattern are separately fixed on two match plates. The drag and cope are finished separately and carried together to produce the complete mould.

cope,_drag,_parting_line

Loose piece pattern

Loose piece patterns are used when the withdrawal of the pattern is not possible from the mould.

Sweep pattern

Sweep patterns are normally used made up of wood. Mainly this pattern is used in the large casting process and used to prepare a mould out of a pipe like material. Sweep means section that rotates about an edge to yield circular section.

sweep pattern

Skelton pattern

Skelton pattern are made up of wooden frames drawing the shapes of the casting. The Skelton patterns are used to lead the mold for a great casting and simple geometrical forms.

Match plate pattern

Match plate pattern

The two halves are mounted on the both sides of a match plate, to conform the contour of the parting surface. The match plates are accurately placed on the drag and on the cope by using locating pins. For small casting several patterns can be mounted on the same match plate.

Gated pattern:

In this pattern one or more than one loose pattern with attached gates and runners provides a channel through which the molten metal can flow from the pouring sprue to the mould cavity.

This pattern is frequently set on a follow board conforming to the parting surface of the mould. The follow board helps in an easy removal of the pattern after the mould has been prepared.

Different types of pattern allowances are seen, some of them are:

Shrinkage Allowances:

Shrinkage allowances are observed during the time of solidification and cooling in the mould. For the instance, the casting becomes smaller than the mould cavity and the pattern. So to avoid the shrinkages, the pattern and the mould must be made large than the casting. The compensation amount for the shrinkage is known as shrinkage allowances.

Normally shrinkage varies not only with the material but also with the thickness, shape, temperature of casting and the temperature of the mould.

Shrinkages that are observed in the casting metals:

S.No

Type of material

Amount of shrinkage

1

Aluminum

1.65

2

Aluminum Alloy

1.30 to 1.60

3

Brasses

1.30 to 1.55

4

Bronze

1.05 to 2.10

5

Grey cast Iron

0.55 to 1.00

6

Malleable Cast iron

1.00

7

Magnesium

1.80

8

Manganese steel

2.60

9

Steels

2.00

10

Tin

2.00

11

White cast Iron

2.10

12

Zinc

2.60

 

Basically special scales and rules are used by the pattern makers with the help of “contraction rule”. They are provided with the necessary allowances and it is slightly longer than the ordinary rule of the same length.  Different types of contraction rules are available for different casting metals. Mainly single ruler is used on each side of these two scales.

S.No

Material used and place of use

Contraction Rule

1

Cast iron , part of thin cast iron

+8/1000

2

Cast iron products of high strength, part of thin cast steel

+9/1000

3

Cast iron products of high strength, part of thin cast steel

+10/1000

4

Aluminium alloys , cast steel, bronze

+12/1000

 

 

 

5

High tension brass and cast steel

+14/1000

6

Cast steel

+16/1000

7

Large Cast Steel

+20/1000

8

Large cast iron

+25/1000

 

Contraction rule standards:

Draft Allowance:

During the removal of pattern from the sand mould there is a chance of damaging the edges of the mould. The vertical face of the pattern is in continuous contact with the sand, which leads to damage the mould cavity. To reduce the changes the vertical face of the pattern are always tapered from the parting lines. The draft allowances are expressed in mm per metre on a side or in degrees.

Draft Allowances depends upon following factors:

The size of the draft must be 5 to 30 mm per meter or an average of 20 mm per meter.

Machining Allowance:

The casting designed to be machined; the casts that remain oversized are later resized by using the required dimensions. To perform the machining operation the casting work piece must be made extra thicker, and this process is also known as machining allowances.

Machining allowances are given due to following reasons:

During the time of the heat treatment the casting gets oxidised inside the mould. At that instance the required formed scale is removed. So machining is used to remove the surface roughness, dirt, slag and other imperfections from the casting. So the machining is done to obtain exact dimensions on the casting.

Depends upon the following factors:

Machining Process:

Characteristics of metal:

Casting Method to use:

Shape and size of the casting:

Degree of finish required:

Material

Types of metal and alloys

Machining allowances

Cast iron

Large size casting

10.0

Cast iron

Medium size casting

3.0

Cast Steels

Large size casting

12.0

Cast Steels

Medium size casting

4.3

Non- ferrous material

Large size casting

5.0

Non- ferrous material

Medium size casting

1.5

 

Shaking Allowances:

Shaking allowances is also known as the rapping allowances. If the pattern is shaken for stress-free removal, the mould cavity, hence the casting is somewhat increased in size. Coming to the average sized casting the allowances are to be overlooked. In large sized and precision castings shrinking allowances are too considered. Mainly these depend upon the previous experiences.

Distortion Allowances:

Distortion allowances are also known as camber allowances. Based upon the size, type of metal, shape they tend to twist during cooling period and the cooling speed. In different parts of casting uneven shrinkages are shown. We need to expect the twist amount according to which we need to make the pattern, this is known as camber.

Pattern material:

1.      Size of the casting

2.      No of castings performed on the pattern

3.      Dimensional accuracy should be required