Specialist Thermal Insulation Materials

Ultra-lightweight insulation materials with the highest thermal insulation to weight value of any material. The most effective material for the prevention of thermal propagation in a thermal runaway event. Anti-thermal propagation technology used within ATP pads for superior thermal insulation between cells.

 

Anti-Thermal Propagation

Solutions
Anti-Thermal Propagation Technology

Key Features

Specialist Thermal Insulation Materials

Insulation
  • Ultra-lightweight insulation materials
  • The highest thermal insulation to weight value of any material.
  • The most effective material for prevention of thermal propagation in a thermal runaway event
  • Anti-thermal propagation technology used within ATP pads for superior thermal insulation between cells

Technical Specifications

Specialist Thermal Insulation Materials

Ultra-lightweight insulation materials with the highest thermal insulation to weight value of any material.

 

Technical Data Specialist Thermal Insulation Materials 
Material Superior lightweight material technology
Thermal Conductivity 24 to 54 mW/m-K
Density 0.20 g/cc
Compressive Resistance  8 kPa @ 10%, 90 kPa @ 25%, 310 kPa @ 50%
Dielectric Constant (ASTMD150) 1.3 – 1.51
Volume Resistivity (ASTMD257) 2.8 x 1012 Ω/cm
Service Temperature -40°C to 600°C
Max. Temperature 850°C

Thermal Management Case Study

Preventing thermal runaway in electric vehicle battery packs

Case Study: Advanced Thermal Cell Barrier for EV Battery Packs

A concept-to-manufacture solution for a major automotive OEM to prevent thermal propagation in EV battery packs. The result was a Framed ATP Pad solution with a thermal propagation delay of over 20 minutes, which is utilised across their entire EV range.

View Case study

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