At AMT, we strive to be your strategic partner in manufacturing innovation, delivering innovative and effective solutions for the medical, automotive, industrial and electronics industries. Through constant innovation, AMT develops capabilities and technologies to support our partners so they can better meet their business objectives.

From a specialist in MIM technology to a contract manufacturer, we are actively involved at the early design stage with the customer. The early supplier involvement (ESI) at design stage allows the customer to fully optimize the capability of MIM technology, enhance product performance and reduce cost.

For prototyping and low-quantity requirement (less than 1,000 pieces), we offer 3D Metal Printing (Additive Manufacturing) services for a wide range of materials including titanium, aluminium, inconel and stainless steel. With our three business units in AMT 3D, AMT MIM and AMT Medical, AMT provides one-stop solutions to our customers - serving as your strategic partner in manufacturing innovation.


Metal Injection Molding
Ceramic Injection Molding
Feedstock Formulation
One-Stop Solutions
In-house CNC Machining
Innovative Applications
Research & Development

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Step 1 – Mixing

Very fine metal or ceramic powder is mixed with a thermoplastic polymer (known as the binder) to form a homogeneous mixture of ingredients. The mixture or feedstock is made into granulated pellets and directly fed into the injection machine.

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Step 2 – Injection

During injection, the feedstock is heated and injected into the cavity of the mold. This allows the desired shapes and geometries to be formed. The molded part is known as the green part.

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Step 3 – Debinding

The polymeric binder is removed thermally via the debinding process. The green part is subjected to the debinding process at a high temperature while maintaining its relative size and shape. The brown part consists of a powder skeleton that is brittle and porous.

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Step 4 – Sintering

The final stage of the PIM process is sintering. During sintering, the brown part is heated to below its melting temperature. As sintering progresses, density increases, pores are eliminated and the part shrinks to achieve a dense and near-net shape component.

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