51. ELECTROFORMING
· Basic process,
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1. A collapsible/removable metal mandrel is placed in an electrolyte solution (this will be the cathode).
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2. A conductive bar of pure metal is put in the solution (this will be the anode).
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3. Current is applied, and atoms liberated from the bar coat the mandrel.
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4. The part is removed when enough metal has built up.
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5. Rinse the part and strip it from the mandrel.
· The mandrel should be created to have a negative impression of the part to be made.
· agitating the electrolyte speeds deposition.
· Typical metals used are,
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- gold- silver
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- lead
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- nickel (very good properties)
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- copper (very popular)
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- iron
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- aluminum
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- zinc
· Advantages,
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- 0.0005" accuracy is possible
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- very good reproduction of mandrel
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- walls down to 0.001"
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- complex shapes possible
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- no theoretical limits to size
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- laminate parts possible
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- high metal purities possible
· disadvantages,
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- production of 0.001-2" per hour
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- exterior surfaces hard to control
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- thin walled products preferred
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- limited material selection
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- edges, deep recesses and corners not suited to electroforming.
· Permanent mandrels,
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- generally the part is a male or female mate that lifts off easily.
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- a tapered shape makes parts easy to remove
· Disposable mandrels,
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- these mandrels often have undercuts that stop a part from sliding off
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- the mandrel can be dissolved, broken, etc.
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- an example is aluminum mandrels that can be dissolved in sodium hydroxide with no effect on a nickel part.
· Flexible Mandrels,
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- a collapsible reusable mandrel that a part is formed about.
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- If the mandrel is made from a material such as PVC, it must have a conductive coating applied before every use.
· Applications,
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- plastics
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- electronics
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- aerospace
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- printing
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- appliances
· Examples,
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- record pressing plates
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- large reflectors
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- complex piping (thin seamless pipe)
