1.4 Forming, Redistribution And Addition Processes - Metal Processes Flashcards

1
Q

3 groups for metal processes

A
  • Forming
  • Resditribution
  • Wastage
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2
Q

Metal processes - forming

A

Are processes in which no material is removed, but materials are deformed to produce required shapes

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3
Q

Metal processes - redistribution

A

Are processes where the material is changed from one form to another without loss of material e.g liquid metal poured into a mould to take a solid shape

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4
Q

Metal processes - wastage

A

Are processes that cut away material to leave the desired shape

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5
Q

Types of forming (7)

A
  • Press forming
  • Spinning
  • Cupping and deep drawing
  • Drop forging
  • Wrought iron forging
  • Bending
  • Rolling
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6
Q

Types of redistribution

A
  • Sand casting
  • Gravity die casting
  • Prssure die casting (hot & cold chamber)
  • Investment casting
  • Low temperature pewter casting
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7
Q

Types of wastage (4)

A
  • Milling
  • Flame cutting
  • Plasma cutting
  • Laser cutting
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8
Q

Press forming:

  • stock form
  • products
A
  • Sheet
  • Metal seats, car body panels, boxes and containers
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9
Q

Press forming process (4)

A
  • Sheet metal is clamped over a die of the product that will determine the final shape of the pressing
  • A hydraulic press pushes the die into the sheet metal cutting blades may be included to punch holes into the sheet and trim the excess from the edges
  • The hydraulic die is lowered and the pressed sheet components is removed
  • The sheet may be placed into further press forming machines for additional pressing, where the shape is complex
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10
Q

Spinning:

  • stock form
  • products
A
  • Sheet
  • Body of stainless steel kettles, saucepans, metal light shades
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11
Q

Spinning process (6)

A

• A former called a ‘mandrel’ is put into the chuck. The sheet metal blank is held in place between the mandrel and tail stock

  • The roller tool is moved into the blank and is rotated with the mandrel. This starts to stretch the metal over the mandrel
  • The roller tool is moved along the mandrel as pressure is maintained against the rotating blank
  • The roller tool is moved to the end of the mandrel, while still maintaining contact with the blank finishing the shape of the product
  • The finished product is removed from the mandrel
  • Excess material is trimmed off following the spirring process
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12
Q

Cupping and deep drawing:

  • stock form
  • products
A
  • sheet (round blank)
  • tube-like shapes such as fire extinguishers, aerosol cans, drink cans
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13
Q

Cupping and deep drawing process (3)

A
  • The pressing blank is clamped over a deep drawing die using a prssure pad or clamping ring known as a retainer
  • A hydraulic press moves the deep drawing punch to be in contact with the blank. It then pushes the blank into the die cavity to make a cup shape
  • The ‘cup’ is then pressed further down through the deep drawing die to make the desired tube shape
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14
Q

Drop forging:

  • stock form
  • products
A
  • Billet
  • Spanner’s, pliers and screwdriver shafts
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15
Q

Drop forging process (5)

A
  • A die is made from cast tool steel is secured from the top of an anvil
  • A ram is also equipped with a die that resembles a mould
  • The metal ‘billet’ to be forged is heated to above its recrystallisation temperature stopping the product from work hardening as it cools which would make it brittle
  • Using tongs, the heated billet is placed by an operator into the anvil die, and the hydraulic ram is brought down with force making the hot billet spread around the shape of the die
  • The ram is lifted and the complete product is removed for cooling and finishing
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16
Q

Wrought iron forging:

  • stock form
  • products
A
  • Bar
  • Decorative metalwork such as gate scrolls, decorative fencing
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17
Q

Wrought iron forging process (2)

A
  • The wrought iron is heated in a gas or coke-fired forged
  • It is then shaped by holding it with tongs, hammering it over an anvil or using other tools such as scroll formers or twisting bars
18
Q

Key features of wrought iron forging (3)

A
  • Uses wrought iron (carbon content less than 0.08%)
  • Can be hand or hydraulic press process
  • Suitable for one-off or small-batch production
19
Q

Bending:

  • stock form
  • products
A
  • Sheet or plate
  • Seams on metal edges, bending sheets for product casting or housings
  • mainly used for large scale batches in industry
20
Q

Bending process (3)

A
  • Clamp the stock metal between a matching punch and die
  • A hydraulic, pneumatic or mechanical brake holds the metal sheet or plate and lowers the punch to bend the material to shape
  • Modern press brakes use a back gauge to accurately position the piece of metal, so that the brake bends the metal in the correct place
21
Q

Rolling:

  • stock form
  • products
A
22
Q

Key features of rolling (3)

A
  • Hot rolling metal results in uniform mechanical properties, no deformation or stresses
  • Surface is usually coated with carbon deposits which must be removed using acid pickling
  • Cold rolling results in a material that has a tighter tolerance and better surface finish
23
Q

Sand casting:

  • stock form
  • products (7)
A
  • Molten metal from a billet
  • Railway carriage wheels, wood working clamps, vices, motor housings, bollards, drain covers, post boxes
24
Q

Sand casting process (6)

A

1 - a ‘pattern’ is made, usually from wood which is a replica of the item that will be cast and is then placed into a drag. The drag is then filled with sand which is packed or rammed in tight around the pattern and levelled

2 - The drag is turned over and the cope is clamped into position over the top of the drag

3 - sand is packed into the cope a round the runner, riser and pattern. A small depression is made on the surface around the sprue to make a pouring basin

4 - the cope and drag are separated, and the stakes and patterns are carefully removed. Connecting channels are cut to join the sprue to the pattern cavity, and from this to the riser. The cope and drag are then re-assembled and the mould is ready for pouring to begin

5 - small metal spikes may be inserted and removed to make vent holes. These will allow gases from the casting process to escape

6 - The molten metal is poured into the pouring basin. It flows down the runner, into the cavity. When cavity is full, the molten metal flows up the riser, indicating to the worker that the cavity is full. Once cool, the sand is removed to reveal the casting

27
Q

Gravity die casting process (4)

A
  • Involves melting the metal and then pouring it into the mould
  • This process relies on gravity to help the metal to flow through the mould
  • There is a runner and riser. The runner is used to poor the molten metal into the mould while the riser will indicate when the mould is full
  • Once the metal is cool, the mould is opened and the casting can be removed
28
Q

Key features of sand casting (3)

A
  • Labour-intensive process
  • Not a high-quality surface finish
  • Suitable for one-off or small-batch production
29
Q

Gravity die casting:

  • process
  • stock form
  • products
A

30
Q

Pressure die casting process (4)

A

1 - The molten metal is stored in a chamber which is part of the high pressure die casting machine

2 - A pneumatic hydraulic plunger forces a ‘shot’ of molten through the ‘goose neck’ into the die

3 - Due to process using high pressure all of the mould is filled and it allows a fine detail to be moulded

4 - The process is fast as the molten metal is not stored seperately and then transported to the casting machine

32
Q

Key features of gravity die casting (2)

A
  • Used for thicker mould sections
  • Used for very large-batch and mass production
33
Q

Pressure die casting (cold chamber) process (3)

A
  • The molten metal is kept separately in a melting crucible
  • The molten metal is then ladled into the shot chamber, and a hydraulic ram forces the molten into the mould cavity
  • When the metal has hardened, the mould opens and ejector pins push the finished casting out
34
Q

Pressure die casting (hot chamber):

  • process type
  • stock form
  • products
A
  • Redistribution
  • Molten metal from a billet
  • Toy cars collectible figures, decorative door knobs and handles
36
Q

Key features of pressure die casting hot chamber (2)

A
  • Fast process
  • Uses for very large batch and mass production
37
Q

Pressure die casting (cold chamber):

  • process type
  • stock form
  • products
A
  • Redistribution
  • Molten metal from a billet
  • Toy cars, collectible figures, decorative door knobs and handles
39
Q

Key features of pressure die casting (cold chamber)

A

Used for very large-batch and mass production

40
Q

Key features of low temperature pewter casting (3)

A
  • Used for school or college projects
  • Can be used with simple MDF moulds
  • Suitable for one-off production or small batch
41
Q

Investment casting:

  • process
  • stock form
  • products
A
  • Redistribution
  • Molten metal from a billet
  • Cast jewellery or collectable figures, hip replacement joints
42
Q

Investment casting process (6)

A

1 - An exact replica of the product to be cast is made using wax

2 - The wax pattern is dip coated with a refractory clay. It is then fired in a kiln to bake the clay hard. The wax is burned away, leaving a hollow clay

3 - molten is poured into the clay mould

4 - Once the metal has filled the mould, it is allowed to cool

5 - The clay mould is then broken away, revealing the casting

6 - The runner and any connecting channels are machined off

43
Q

Key features of Investment casting (3)

A
  • Used for intricate or awkward shapes that would be difficult or impossible to Luke using any other casting process
  • High quality excellent finish
  • Wax patterns are cast from a master mould, repeatable quality process
44
Q

Low temperature pewter casting:

  • process type
  • stock form
  • products
A
  • Redistribution
  • Molten metal from a billet
  • Jewellery, key fobs and decorative components
45
Q

Low temperature casting process (7)

A

1 - A mould is made from MDF, plywood or high density modelling foam. If made from MDF or plywood, the mould might be laser cut or cut with a fret saw. The mould will include a spruce or runner which will be used to pour the pewter into

2 - The mould is sandwiched between two pieces of MDF and clamped together. The top of the mould will be level with the top of the side pieces

3 - The pewter is melted in a ladle and then ladled into the sprue

4 - Once the casting is cooled, it is removed from the mould

5 - The sprue or riser is removed with a junior hacksaw

6 - The casting is then filed, and cleaned up using abrasive wet and dry paper

7 - The casting would then be polished