OUR TECHNOLOGIES

01

WHY ADVANCED MATERIALS?

Traditional materials such as steel or aluminum are versatile, but somewhat limited in their abilities. By combining and orientating different materials within a structure to form a composite, the best qualities of each can be emphasized and the limiting quantities of each mitigated.

Matrix Composites & Engineering: Our Advanced Technologies | Matrix
Carbon-Fibre-Composites | Matrix

02

Carbon Fibre Composites

Carbon fibre composites rely upon blending reinforcement fibres with a liquid resin. The fibres are often woven into a fabric or otherwise assembled to maintain control over their orientation and the thickness of a single layer. This ‘fibre architecture’ will become the core of the design, and is tailored to efficiently distribute the loads through the structure.

03

Filled Elastomers

As with solid resins, Matrix can tailor the physical and mechanical properties of elastomers, such as polyurethane or silicone, via the addition of reinforcement fibres and other particulates. The resulting materials are often used as wear products in mining or deep water insulation for oil and gas applications.

Thermoplastic-Composites | Matrix
 Matrix-Syntactic-Foam | Matrix
04

Matrix Syntactic Foam

Matrix Composites & Engineering is home to the world’s largest syntactic foam manufacturing facility and is considered a world leader in the design and manufacture of syntactic foam solutions. Primarily developed for use in subsea buoyancy applications, syntactic foam can now be found in a wide range of applications within the defence, civil & infrastructure and mining sectors.

05

Thermoplastic Impact Resistant Composites

Thermoplastic composites retain the toughness and durability of thermosets, making them suitable for damage and impact resistant applications. They also provide the potential to recycle – thermoplastic resins may be transformed from a solid to liquid and back again by the simple application of heat.

Thermoplastic-Composites | Matrix
WHY ADVANCED MATERIALS | Matrix

01

WHY ADVANCED MATERIALS?

Traditional materials such as steel or aluminum are versatile, but somewhat limited in their abilities. By combining and orientating different materials within a structure to form a composite, the best qualities of each can be emphasized and the limiting quantities of each mitigated.

Carbon-Fibre-Composites | Matrix

02

CARBON FIBRE COMPOSITES

Carbon fibre composites rely upon blending reinforcement fibres with a liquid resin. The fibres are often woven into a fabric or otherwise assembled to maintain control over their orientation and the thickness of a single layer. This ‘fibre architecture’ will become the core of the design, and is tailored to efficiently distribute the loads through the structure.
Thermoplastic-Composites | Matrix

03

FILLED ELASTOMERS

As with solid resins, Matrix can tailor the physical and mechanical properties of elastomers, such as polyurethane or silicone, via the addition of reinforcement fibres and other particulates. The resulting materials are often used as wear products in mining or deep water insulation for oil and gas applications.

Matrix-Syntactic-Foam | Matrix

04

MATRIX SYNTACTIC FOAM

Matrix Composites & Engineering is home to the world’s largest syntactic foam manufacturing facility and is considered a world leader in the design and manufacture of syntactic foam solutions. Primarily developed for use in subsea buoyancy applications, syntactic foam can now be found in a wide range of applications within the defence, civil & infrastructure and mining sectors.

Thermoplastic-Composites | Matrix

05

THERMOPLASTIC IMPACT RESISTANT COMPOSITES

Thermoplastic composites retain the toughness and durability of thermosets, making them suitable for damage and impact resistant applications. They also provide the potential to recycle – thermoplastic resins may be transformed from a solid to liquid and back again by the simple application of heat