Space

Area of Application

Fibre solutions designed to meet the technical demands of space environments – protecting highly sensitive equipment from interference, harsh environments, and adversaries. Lightweight and adaptable for EMI shielding, radiation protection, and thermal regulation.

Fibre Production from Lunar Regolith: We transform Lunar regolith into high-performance fibres, enabling sustainable infrastructure and life-support systems on the Moon.

From Simulation to Application: MoonFibre advances solutions for dust control and hydroponic growth on the Moon.

ESA funded project for Lunar In-Situ Resource Utilisation (ISRU)

MoonFibre

For satellite busses, tank liners, and flexible radiators under extreme temperature conditions.

Effective thermal solutions in composites – enhancing heat dissipation and supporting higher energy-density electronics for demanding space applications.

Thermal Regulation

Provides up to 85 dB multi-frequency shielding in flexible composites, cable braids, and gaskets.

Suitable for battery enclosures, DC-DC converter housings, and satellite electronics compartments.

Compatible with glass and carbon fibre woven layers in layup, vacuum resin infusion, automated thermoplastic tape laying, SMC process.

EMI Shielding

Increases mission life by 52% while reducing weight by 10%; effective against primary and secondary radiation.

The first material demonstration mission will launch in Q2 of 2026 to low Earth orbit. Material is currently being qualified and integrated for a LEO satellite demonstration with onboard radiation sensors.

Developed through FibreCoat’s award-winning INNOspace Masters concept.

Radiation Shielding

MoonFibre

Fibre Production from Lunar Regolith: We transform Lunar regolith into high-performance fibres, enabling sustainable infrastructure and life-support systems on the Moon.

From Simulation to Application: MoonFibre advances solutions for dust control and hydroponic growth on the Moon.

Thermal Regulation

For satellite busses, tank liners, and flexible radiators under extreme temperature conditions.

Effective thermal solutions in composites – enhancing heat dissipation and supporting higher energy-density electronics for demanding space applications.

EMI Shielding

Provides up to 85 dB multi-frequency shielding in flexible composites, cable braids, and gaskets.

Suitable for battery enclosures, DC-DC converter housings, and satellite electronics compartments.

Compatible with [process details needed: e.g. composite layup, weaving, coating, or co-curing methods] for lightweight, integrated EMI protection.

Radiation Shielding

Increases mission life by 52% while reducing weight by 10%; effective against primary and secondary radiation.

The first material demonstration mission will launch in Q2 of 2026 to low Earth orbit. Material is currently being qualified and integrated for a 2026 LEO satellite demonstration with onboard radiation sensors.

Developed through FibreCoat’s award-winning INNOspace Masters concept, addressing lightweight radiation protection.

Awards & recognitions

Our Space-technology innovations are recognised by leading industry experts. This year, our project FibRaShield received 1st place in the Industry category at the INNOspace Masters 2025. This recognition drives our continued efforts to deliver high-performance fibre solutions for missions beyond Earth.

FibRaShield wins 1st place at INNOspace Masters 2025 (Industry category)

Get in touch

We are a team of experts developing tailored fibre solutions for space applications. Get in touch to explore custom EMI shielding, radiation protection, thermal management, and other solutions designed to meet your mission’s unique technical demands.