Solutions
Thermal Management Compounds
Materials engineered to move heat where you want it and block it where you do not — including a dual-mode compound that conducts heat in normal use and insulates on overheat.
Thermal control, engineered into the material
Removing and managing heat is the core of what we do. Our compounds build thermal function directly into the material — conducting heat toward a sink, buffering spikes with no added power, or turning insulating when a fault pushes temperature past a threshold. Grades are supplied ready for integration; datasheets with property values are available on request.
The grades
Thermorphous FX25
A multifunctional thermal-management material co-developed with Sakata INX. Below 120 °C it conducts heat; above it, it transforms into a thermal insulator. Withstands 1000 °C, non-flammable, no toxic smoke. Packs: 5, 20, 200 kg.
View productThermorphous Type R
A thermally conductive potting compound that dissipates battery heat in normal use (20-70 °C), then transforms into a thermal insulator above 120 °C and withstands up to 1000 °C. Potting and sheet grades; UL94 V0; 40-80 Shore A.
View productThermally Conductive Compounds (8515)
A thermoconductive PPS that conducts heat isotropically or directionally while remaining electrically insulative — for heat-sink housings, gap fillers and heat spreaders. 25 kg bags.
View productS201 multifunctional coating
Conducts heat below 150 °C even over insulating plastics, then becomes a thermal barrier above it — bridging thermal management and fire protection.
View productCo-developed with Sakata INX
Thermorphous FX25 was co-developed with Sakata INX Corporation, our Japanese partner and the exclusive distributor of the product in Japan. For enquiries in Japan we can direct you to them.
See it work
Thermorphous FX25 in action
Watch the dual-mode material conduct heat, then turn insulating as temperature rises.
Datasheet
Download the Thermorphous FX25 datasheet
Enter your details and we will email you the datasheet. Corporate email required.
Need a compound tuned to your thermal problem?
Share the heat path, the temperatures and the integration constraints. We will map it to a grade and TDS.