Moulding Patterns are the solid forms that are used to make the mould. Even though a pattern generally resembles the casting being produced, it differs from the casting in terms of certain allowances that are required for producing the correct shape and dimensions and in eliminating some minor details which are too complicated or small to be produced by casting and are left to be produced later by machining.
A moulding pattern has to be designed to facilitate moulding and ensure good quality castings. The quality of the castings produced depends on the design of the pattern, its material and construction. A poor casting may result from a good pattern due to various other factors but a poor moulding patterns would never make a good casting.
The design of the moulding patterns depends upon the shape and complexity of the casting, the material of the costing and of the pattern, the type of moulding adopted and the number of castings to be produced.
Types of Moulding patterns:
- Loose pattern
- Gated pattern
- Match plate patterns
- Cope and drag patterns
- Pattern devices
- Shell patterns
Loose pattern are patterns which are not connected to other moulding patterns or mounted on a plate. Loose patterns may be further classified into:
- Solid or Single piece pattern
- Self core pattern
- Split patterns
- Loose piece pattern
Solid or single piece moulding patterns are the patterns with shapes having straight draft. They are moulded with the entire cavity in one box. The simplest type of solid patterns is the one with a flat base. Such a moulding patterns can be moulded in one box only with flat surface forming the parting line between the two flasks. When using solid patterns the moulder has to cut his own runners, feeding gates and risers which take time. Such patterns are not useful except for limited production. Generally made of wood, these patterns are most inexpensive of all patterns.
Self core patterns:
Self core type solid moulding patterns are patterns having a hollow portion with straight draft which is used for producing its own core during moulding process itself. This type of pattern eliminates the need for core box.
Many patterns cannot be made in a single piece because they have back draft which does not permit their withdrawal. Such moulding patterns are made split into two parts. The pattern is split in such a way that the two parts by themselves have no back draft. One part of the split moulding patterns is molded in the drag and the other in the cope. The moulding pattern parts are held in their relative position by dowel pins so as to ensure proper location of the parts during moulding.
Some castings that have complicated shape may require that the pattern is made in three or more parts instead of two. Such split patterns are called multi-piece patterns and require multiple flasks-one flasks for each part of the pattern for moulding.
Patterns with loose pieces:
Some castings require patterns which have parts with back draft in such a way that they cannot be made into split patterns. In these patterns the parts with back draft are made into loose pieces so that the loose pieces can be removed separately from the mould after the main body of the pattern has been removed.
The loose pieces are initially held in a place during moulding with the help of pins or slides but when the main body is withdrawn vertically the loose pieces are left inside the mould. The loose pieces are then withdrawn sideways and pulled up through cavity made up by the main piece. Loose piece patterns have the advantage of a low pattern cost but normal take longer in moulding.
Gated patterns are number of loose patterns connected with a gating system. They are moulded like a single pattern and withdrawn from the mould in one piece thus reducing moulding time.
Gated patterns are useful when a number of small castings are to be produced. Of course these patterns do add an extra operation of separating individual castings after they have solidified along with the gating system but the overall time for casting per piece is much lower than if castings were produced individual moulds. Both loose piece patterns and gated patterns are more suited for hand moulding.
Match plate patterns:
These have half mounted on two sides of a pattern plate and aligned with reference to aligning pins on the plate. They are designed to work with match plate moulding machines for high production rates. The two halves of the mould are made with the pattern halves on the two sides of the pattern plate and assembled the two mould halves match.
Match plate patterns are expensive but their cost can be justified if the quantity of production is large. Because the moulding is done on machines, match plate patterns produce castings which are more accurate than those produced by hand moulding.
Cope and drag patterns:
As the size of the castings increases, it becomes more and more difficult to handle match plates. For medium and large size castings separate pattern plates are made for the cope and drag halves. The pattern halves are geometrically located with reference to aligning pins or holes in the pattern plates for proper matching.
The cope and drag are separately made, may be on different moulding machines by different workers and assembled with proper matching for pouring.
When the size of the casting is too large and the number required is only one or two, full patterns generally prove uneconomical. Pattern devices like sweeps, segments, skeletons and follow boards are used in such cases to save on pattern cost.
Shell patterns are used mostly for piping work or for producing drainage fittings. This pattern consists of a thin cylindrical or curved metal piece parted along the center line. The two halves of the pattern are held in alignment by dowels. The outside surface of the pattern is used to make the mould for the fitting required while the inside can serve as a core box.
The design of patterns depends on selection of pattern materials, the types of moulding and number of casting produced, which are described briefly in the below article.
What is Pattern?
Pattern is the solid form that is used to make the mould. Even though a pattern generally resembles the casting being produced, it differs from the casting in terms of certain allowances that are required for producing the correct shape and dimensions and in eliminating some minor details which are too complicated or small to be produced by casting and are left to be produced later by machining.
A pattern has to be designed to facilitate moulding and ensure good quality castings. The quality of the castings produced depends on the design of the pattern, its material and construction. A poor casting may result from a good pattern due to various other factors but a poor pattern would never make a good casting.
The design of the pattern depends upon the shape and complexity of the casting, the material of the costing and of the pattern, the type of moulding adopted and the number of castings to be produced.
Pattern material properties are:
- Easy to work, shape and join
- Strong, hard and durable so as to be resistant to wear
- Light in weight
- Dimensionally stable
- Cheap and easily available
- Resistant to corrosion and chemical action
- Able to take good finish
Pattern Materials are:
Epoxy casting and molding
Selection of pattern material are:
1. Number of castings to be produced
2. Shape, complexity and size of the casting
3. Degree of accuracy and surface finish required
5. Casting method to be used.
- From Phillips to Torx: Exploring the World of Screwdriver Types
- Understanding 3D Printing: A Comprehensive Guide to Its Methods, Materials, and Technologies
- How to Choose the Right Solar Panel for Your Home
- Chain Drive | Introduction | Definition | Types | Application | How To Properly Tension Chain Drive | Chain Drive vs Belt Drive
- Drum Brakes Adjustment Tool | Hydraulic Drum Brakes | Drum Brakes Working | Drum Brakes vs Disc Brakes
- Automobile Air Suspension System, 3 Basic Components, and Working