Applications

Thermal interface materials powering innovation across industries

Consumer Electronics

Thermal grease, phase change materials (PCM), and FlexiMetal (35W/mK) manage heat in compact, high-performance devices. Applied between CPU/GPU and active cooling paths, it ensures efficient heat transfer where space is at a premium.

  • Laptops - high-performance processors in thin form factors
  • Smartphones - 5G processors generating significant heat
  • Gaming consoles - Xbox, PlayStation PS5 with sustained workloads

Prevents thermal throttling, extends device lifespan, and enables quieter operation by reducing fan speeds.

Automotive & Electric Vehicles

Manages heat from batteries and power electronics in EVs. Thermal interface materials help dissipate heat during charging and discharging cycles, protecting critical components.

  • Battery cells - thermal regulation during fast charging
  • Inverters, converters, and motor controllers
  • Engine control units and onboard electronics

Extends battery lifespan, improves overall efficiency, and ensures safe operation under demanding thermal conditions.

Data Centers & Servers

Critical for managing the intense heat generated by CPUs and GPUs in server environments. Thermal interface materials reduce thermal resistance and prevent throttling or hardware damage.

  • Cloud computing infrastructure
  • High-performance computing clusters
  • Dense server stacks and blade servers

Lowers energy consumption for cooling, reduces operating costs, and prevents costly downtime from thermal failures.

Aerospace, Medical & Industrial

Used in extreme conditions where thermal performance directly impacts safety and reliability. These applications demand materials that perform across wide temperature ranges.

  • Aerospace - avionics systems, satellite electronics
  • Medical - MRI machines, ultrasound imaging devices
  • Industrial - robotic arms, CNC machines, power modules

Maintains optimal operating temperatures, extends operational life, and ensures compliance with rigorous safety standards.

Sustainability & Environmental Impact

Enhanced thermal efficiency reduces energy consumption and lowers carbon footprint across all applications. The industry is advancing eco-friendly, non-toxic, and recyclable thermal materials.

  • Extended EV battery lifespan through better thermal management
  • Reduced data center energy consumption via improved cooling
  • Development of non-toxic, recyclable thermal interface materials

Lower environmental impact, reduced total cost of ownership, and alignment with global sustainability goals.