Morgan Technical Ceramics is a global leader in the injection moulding of ceramics. With our design and manufacturing expertise, we can support the development of your next generation products from prototype through to full volume production.
The CIM process begins with very fine ceramic powders. Using sophisticated mixing technology, the powders are compounded with thermoplastic binders to produce a homogeneous pelletised feedstock.
The binders form a liquid medium which carries the ceramic powders into the mould during the injection stage. Using an injection moulding machine similar to that used in conventional plastic moulding, the molten feedstock is forced into a mould cavity forming a net shape part. Moulds can be single or multi-cavity configurations. After forming the part, it then goes through two thermal processes. First is pyrolysis to remove the binder, followed by sintering in a high temperature kiln to form a fully dense ceramic component. During sintering the component shrinks uniformly by as much as 20% while retaining the complex shape. With our excellent process control close tolerances can be obtained, therefore machining of the part after sintering is usually not necessary.
To ensure customers maintain their competitive position Morgan Technical Ceramics provides the most cost effective, reliable, and dependable path to meet product development time frames. Rapid prototyping supports this enabling a fast-track path from concept to production samples. Utilising rapid tooling methods and CNC machining techniques, it is possible to produce CIM components from a 3D CAD model in a short timescale with minimum investment. Suitable for low volumes to allow customers to see and feel production-like CIM components during their development stage prior to investing in high volume production tooling.
When a ceramic material has been chosen for a specific application, the geometry of the component has often been limited by the cost of shaping operations. Ceramic injection moulding overcomes this issue by forming net shape parts in the tool.
Designs previously rejected as too difficult or expensive to manufacture using other production techniques are made commercially feasible. Features such as re-entrant angles, multi-shaped blind holes, screw threads, surface profiles, perpendicular holes, undercuts, and intricate cavities are all possible using CIM technology. A multimillion-pound investment in CIM manufacturing technology at Stourport, UK has enabled the site to produce moulded ceramic components in volume for major international customers.
These components offer all the benefits associated with technical ceramics including wear resistance, corrosion resistance, thermal stability, superior hardness, high mechanical strength, and dimensional stability. Physical features available through ceramic injection moulding include undercuts, threads, blind holes, and curves.