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As adoption of 3D printing spreads throughout the larger sector of industrial manufacturing, the value of the technology as more than just a rapid prototyping tool is becoming increasingly evident. In this article, we gave an overview of how 3D printing is used to fabricate molds and dies for injection molding and die casting.
Die casting, or pressure casting, is a metal casting process characterized by the use of mold cavities to apply high pressure to the molten metal.
Aerospace components must guarantee personnel safety and facilitate the optimal performance of high-precision instruments and machines.
In-mold manufacturing, casting and forging are often used for processing. What is the difference between these two manufacturing processes?
Casting is most commonly used to create complex shapes that would otherwise be difficult or uneconomical to make using other methods. Metal casting processes have been known for thousands of years, and have been widely used for creating sculptures, jewelry, transportation, weapons, and tools.
Die casting, called pressure casting, is a metal casting process characterized by the use of a mold cavity to apply high pressure to molten aluminum or zinc alloys. Die casting molds are often developed from stronger alloys, a process somewhat similar to injection molding. Most die-casting workpieces are iron-free, such as zinc, copper, aluminum, magnesium, lead, tin, and lead-tin alloys. According to the different requirements of the type of die casting, a cold chamber die casting machine or a hot chamber die casting machine is configured for die casting processing.
The process of pouring molten metal into a mold cavity in the shape of casting, and taking out the finished product after the metal is cooled, is commonly known as sand casting, also known as sand casting. Each sand mold can only be used once, which belongs to destructive casting. Mainly cast steel, aluminum alloy, and copper.