Automotive Parts、Medical Devices、

Digital models and precision parts products、Home appliance products

Vacuum casting refers to the use of 3D printing or CNC machining to create a prototype of a product, creating a silicone mold in a vacuum state, and pouring it in a vacuum state using materials such as PU, transparent PU, POM like, ABS, etc., in order to replicate the same replica as the prototype.

In the process of automotive development, it is often necessary to produce small batches of components. Considering the updating of data versions during the design process and the high cost of mold opening, Vacuum casting is faster, more cost-effective, and significantly reduces product development costs, cycles, and risks compared to traditional injection molding technology. The production of small batch samples required for automotive research and development and trial production using silicone molds for small batch vacuum replication greatly reduces the cost and time of mold opening, as well as reduces various complexities and risks in mold opening and production, making it the best way for small batch production of products.

The vacuum lamination process is commonly used in the research and design process of automotive components, producing small batches of plastic parts for performance testing, vehicle installation, and road testing and other trial production work. Common plastic components in automobiles, such as air conditioning casings, bumpers, air ducts, rubber coated dampers, intake manifolds, center consoles, and instrument panels, can be rapidly produced in small quantities using vacuum casting technology during the trial production process.

Advantage

Fast speed: Vacuum lamination technology can complete the production of molds or products in a relatively short period of time.

Low cost: Compared to traditional mold making methods, vacuum lamination technology has lower costs, greatly reducing product development costs.

High flexibility: can match and replicate colors according to customer needs, meeting different market demands.