Die-casting aluminum parts have good casting hydraulic […]
Die-casting aluminum parts have good casting hydraulic fittings performance, high dimensional accuracy, stable performance, and can be recycled, which saves production costs, and therefore has a wide range of applications.At present, the aluminum alloy die-casting process has been widely used in various fields. Aluminum alloy die-casting products are currently mainly used in auto parts, electronic housings, communications, motors, aviation, ships, household appliances, furniture accessories, digital housings, handicrafts.
Security product housings, LED lighting (lampshades) and some new energy industries, some high-performance, high-precision, high-toughness high-quality aluminum alloy die-casting products are also used in large aircraft, ships and other industries with relatively high requirements. The main use is still on the parts or shells of some devices, because the aluminum alloy forming process has become a widely used process.One of the methods of aluminum casting of aluminum alloy die-casting process is die-casting. Die-casting steel molds or molds are where molten metal enters into injection bonding under high pressure.
The wide application of aluminum alloy die-casting skills, the die-casting process may be the generally selected casting process, cf. other aluminum casting processes. Die-casting method is a small-to-medium planning application that is more suitable for the production of large quantities of parts. The parts produced by die-casting are more detailed, bringing more exquisite surface quality and the love of the consistency of scale.The aluminum casting process is used for lawnmower shells, street lamp shells, typewriter frames, dental appliances, frying pans, cover plates, exterior containers, escalator parts, conveyor parts, aircraft and marine hardware, and lighting rings and.
Aluminum alloy outboard motor parts produced.Four-step aluminum alloy die-casting. First, the oil is applied to the mold and then the mold is closed. This oily substance will help control the temperature of the mold, and it will make the removal of the casting easier. Then, the molten metal will be forced into the mold under high pressure. High-pressure eruption requires a quick replenishment of the mold before the casting hardens. The mold will be filled and the pressure will be maintained until the molten metal hardens. After that, the mold is opened and the casting is taken out.