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Process Technology

As the only fabricator in China with a wide range of technical capabilities, we are able to combine the different know-hows of innovative process technologies with material properties to offer the best solution in NVH applications. As part of our lean manufacturing practice, we ensure cutting-edge quality throughout our design, development and manufacturing solutions. Using the best state-of-the-art machines combined with our extensive expertise in process technology, Armstrong Odenwald is well positioned to help customers meet the challenges of NVH in tomorrow’s world.

Precision Die-Cutting

Using metal tool stamping, wood-based tooling & ABS-based tooling, our die cutting capabilities range from parts as small as a 5 mm diameter with tight tolerance levels of +/- 0.05mm. Our precision die cutting capabilities encompasses Multi-Cavity Production & Auto Deflashing, Multi-Layer Ultra-Thin Thickness Cutting, Full Cut and Kiss Cut.

Benefits

Ideal for any types of die-cut applications to suit customer’s needs

Rubber Moulding

As part of our Innovation Playground, Armstrong has in-house R&D capabilities to formulate optimal and unique formulations of rubber. The rubber fabrication process encompasses Transfer Moulding, Compression Moulding, Injection Moulding and Hybrid Injection Moulding. Producing more than 2 million parts daily, our technical know-how enables us to produce not only large rubber parts, as well as complicated micro rubber parts with tight tolerance of +/-0.05mm.

Benefits

Excellent choice for any types of rubber requirement

Reaction Injection Moulding

A short cycle process that mixes two or more reactants, typically Isocyanide and Polyol to be chemically expanded and cured.

Benefits

End product is stable, strong, flexible and lightweight. It will be chemically resistant, physically tough and wear resistant; an excellent choice for components produced in low volume quantities.

Expanded Polypropylene (EPP) Moulding

This environmental friendly technology injects pre-compressed EPP beads into a pre-heated mould to be fused together under steam, heat and pressure to form the desired design.

Benefits

Ideal for products to be light-weighted and need to encompass intricate curves, tight corners and shapes

Heat Press Forming

A high volume, high pressure moulding technique utilised for moulding both large and small 3D thermoplastic foam parts.

Benefits

Ideal for complex feature requirements

Compression Forming

A fast and efficient forming process utilised only for requirements of thinner cross section parts up to 25 mm, mainly for PE or EVA foam.

Benefits

Ideal for thin cross section part requirement

Vacuum Forming

A production choice to produce a uniform thin wall of 3D hollow parts of various materials that realise the design aesthetics in short lead time.

Benefits

Ideal for 3D products that require a uniformity in thickness

Twinsheet Thermoforming

A thermoforming process that creates 3D hollow PE foam parts with formed features on both sides with no secondary bonding required.

Benefits

A unique one-of-a-kind technology available only in Armstrong Odenwald

Sandwich System

The technology to weld different materials such as non-woven fabric and foams etc, all into one component.

Benefits

Ideal for products that require a combination of more than 1 material

Questions?

We’ve got answers. Contact us to learn more or schedule a visit from our team.