Pressure die casting
ChakuShibi
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23 slides
Oct 07, 2016
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About This Presentation
Types of Die Casting on basis of Pressure
Slide Content
Pressure Die Casting
Pressure Die Casting Pressure die casting is a quick, reliable and cost-effective manufacturing process for production of high volume, metal components that are net-shaped have tight tolerances. The pressure die casting process consists of injecting under high pressure a molten metal alloy into a steel mold (or tool). This gets solidified rapidly (from milliseconds to a few seconds) to form a net shaped component.
Types of Pressure Die Casting High Pressure Die Casting Used for castings requiring tight tolerance and detailed geometry. High pressure die casting has wider application Nearly 50% of all light alloy casting production. Low Pressure Die Casting Commonly used for larger and non-critical parts. Accounts for about 20% of the total production
Rotor die casting machine AUTOMATIC ALUMINIUM ROTOR DIE-CASTING MACHINE ROTOR MAKING MACHINE
Working Principle ROTOR DIE CASTING MACHINE_HD.mp4
Specification
Requirements for rotor die casting 1. Rotor lamination drawing 2. Rotor assemble drawing 3. Commutator drawing 4. Shaft drawing 5. Pressing position 6. Required productivity 7. Other technical requirement
COLD CHAMBER DIE CASTING MACHINE Cold-chamber die casting is ideal for metals such as aluminum which have a high melting point. During this process, metal is liquefied in a furnace at extremely high temperatures and then ladled into a cold chamber to be injected into the die.
Working principle
Working principle ( Contd.,) During cold-chamber die casting, the molten charge, which consists of more material than is required to fill the casting, is ladled from the crucible into a shot sleeve where a hydraulically operated plunger pushes the metal into the die. The extra material is used to force additional metal into the die cavity to compensate for shrinkage, which takes place during solidification. The main components of a cold-chamber die casting machine are shown below. Injection pressure of over 10,000psi or 70,000KPa can be obtained from this type of machine.
Working principle ( Contd.,) The die is closed and the molten metal is ladled into the cold-chamber shot sleeve.
Working principle ( Contd.,) The plunger pushes the molten metal into the die cavity where it is held under pressure until it solidifies.
Working principle ( Contd.,) The die opens and the plunger advances, to ensure the casting remains in the ejector die.
Working principle ( Contd.,) Ejector pins push the casting out of the ejector half of the die and the plunger returns to its original position.
3000T Die Casting Machine, ZDC-3000TCM
Features Locking force: 3000Ton Die height: 850-2000mm Tie bar distance: 1700x1700mm Max. weight of shot: 38.9kgf Max. casting area: 4256~3242cm 2 Horsepower required: 190KVA
Specifications
Specifications (Contd..)
Advantages High speed production can be achieved as the whole process is completely automated. Possible to obtain fairly complex castings than that feasible by gravity die casting due to the use of the movable cores. Very small thicknesses can be easily filled as the liquid metal is injected under high pressure.
Very good surface finish can be obtained &most of pressure die castings can be directly electroplated without any further processing. Closer dimensional tolerances & better mechanical properties can be obtained compared to sand casting. Very economical for large scale production. Advantages (Cont.)
Disadvantages Large capital investment is required to set up a pressure die casting process. The die casting machines & tooling costs are very expensive. Cannot be used for large castings as the casting machine capacity is limited.
It is not suitable for all materials because of the limitations of the die materials & the alloys used must have allow melting point. High porosity is common & heat treatment is difficult. Disadvantages (Contd..)
Application of Pressure Die Casting Automotive parts like wheels, blocks, cylinder heads, manifolds etc. Aerospace castings. Electric motor housings. Kitchen ware such as pressure cooker. Cabinets for the electronics industry. General hardware appliances, pump parts, plumbing parts.
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