Defense · Humanitarian · Industrial
Insulative Ceramic Particle Coating
A water-based elastomeric membrane that transforms standard tactical textiles into high-efficiency thermal barriers — without power, weight or mechanical HVAC.
10°C
Peak Internal Reduction
k≈0.05
W/m·K Conductivity
ε≈0.88
Radiative Emissivity
68%
Cycle Below Ambient
The Challenge
Field shelters were never built for extremes.
Despite advances in equipment, standard tactical and humanitarian textile structures remain the primary form of field shelter — and the primary failure mode under thermal load.
Thermal Vulnerability
Polycotton, polyester and HDPE provide negligible insulation against solar load.
Heat Signature & Stress
Internal tent temperatures exceed ambient by +6°C during peak daylight.
Rapid Thermal Loss
In sub-zero conditions, internal heat is lost almost instantly to outside air.
Resource Drain
Heavy, fuel-hungry HVAC units expand the logistical footprint of every deployment.
The Solution
A passive thermal barrier you spray on.
Our ICP coating integrates directly with existing tactical fabrics through standard industrial spray or dip-coating equipment — no new machinery, no retraining, no capital expenditure.
- THERMALk ≈ 0.05 W/m·K engineered conductivity
- RADIATIVEε ≈ 0.88 emissivity, high solar reflectivity
- DURABLEUV & weathering resistant, flexible adhesion
- PASSIVENo power draw. No HVAC. No moving parts.
◤ SECTOR
Defense
Tactical shelters, vehicle covers, field kit.
◤ SECTOR
Humanitarian
Refugee tents, mobile clinics, emergency shelter.
◤ SECTOR
Industrial
Insulation jackets, tarps, technical textiles.
Be Part of the Evolution
Discuss licensing & partnership opportunities.
Request the full Technical Data Sheet, Safety Data Sheet, or arrange a briefing with our engineering team.