Ceramic Injection Molding Process

Process flow for capillary manufacturing process stage 1.

Ceramic injection molding process.

The binders form a liquid medium which carries the ceramic powders into the mould during the injection stage. 1 when powder technologies are in question the key step in production process is choosing the adequate ceramic powder. Ceramic injection molding is ideal for high volume production of complex tight tolerance components. The resulting feedstock is then granulated.

Using sophisticated mixing technology the powders are compounded with thermoplastic binders to produce a homogeneous pelletised feedstock. During moulding the feedstock plasticizes and is injected with high pressure into the cavity. Ceramic injection moulding process after deciding which ceramic you want to have for your application the cim process is as follows. It is an effective way of manufacturing complex precision components with the highest degree of repeatability and reproducibility.

The ceramic injection molding process consists of four basic steps. The first step in cim begins with very fine ceramic powders which are compounded with polymer binders into a feedstock. Injection molded ceramics brochure injection molding eliminates the need for secondary operations normally required to produce complex geometrical shapes. The ceramic injection molding process begins with very fine ceramic powders.

The ceramic injection molding is very suitable for high volume production of complex design with tight tolerances like bonding capillaries. The mim cycle begins with preparation of a feedstock by mixing fine metallic powder with a binder comprising waxes polymers lubricants and surfactants. Feedstock preparation injection molding debinding process and sintering fig. The cim process gives production engineers and product designers more versatility in the use of ceramics as an alternative material with higher productivity lower manufacturing costs and improved product performance.