Our recent work

  • Gridded Composite Rocket Body

    We designed and manufactured a Gridded Rocket Body, Payload Module utilising the superior performance of an orthogrid structure. 

  • Satellite Chassis

    Partnering with key satellite manufacturers, we have developed a thermoplastic composite single-piece, join-free, cuboid structure. It was additively manufactured with high-strength carbon-fibres using our dual-laser automated fibre placement system.

  • Digital material twin and high-fidelity simulation

    Leveraging real 3D geometries of manufactured materials and components is a game-changer for precise modelling and simulations.

  • Thermally Stable Satellite Strut

    We designed and manufactured a 500mm tubular satellite strut with low CTE (Coefficient of Thermal Expansion) in accordance with space requirements that demand a maximum porosity of 1.5%.

  • Low-CTE Telescope Structure

    New Frontier Technologies in partnership with the Advanced Instrumentation and Technology Centre (AITC) at ANU has designed and manufactured a biaxially-optimised low-CTE carbon-fibre support structure meticulously tailored for the ANU DREAMS telescope with its stringent design requirements.

Our services

  • Design featured image


Work with us to precision design carbon composites to your specifications. With our expertise, you can achieve maximum structural efficiency, thermal stability, strength, industry compliance, variance, or other factors that need to be closely monitored and controlled.

Advanced Manufacturing

New Frontier Technologies is the only partner in the Southern Hemisphere that can deliver projects requiring large composite components with integrated composite fittings, reducing overall part count.

Advanced Diagnostics

We have world-leading capability in 3D imaging and analysis of composite materials and structures using state-of-the-art x-ray computed tomography (CT) technology. Our image analysis delivers high-fidelity digital twins to give you a detailed understanding of your manufactured component, with the added advantage of virtual testing.

  • High-Fidelity Simulation featured image

High-Fidelity Simulation

We can evaluate designs and structural performance using our high-fidelity simulations.

Using the advanced x-ray computed tomography (CT) dataset gathered through our Advanced Diagnostics, we can create a 3D digital twin of the component and generate a mesh for finite element analysis.