COH-3114LVC Thermal Interface Material (TIMs)

Taica’s COH-3114LVC advanced electrically insulative material is suitable for applications demanding high thermal performance

Image of Taica’s COH-3114LVC Thermal Interface Material (TIMs)Taica Corporation is the manufacturer of Lambda-GEL® thermal interface materials (TIMs). TIMs are commonly used between electronic devices and their corresponding heat sink or chassis mounting to facilitate the flow of heat away from the electronic device and prevent overheating. Taica’s high thermal performance TIM COH-3114LVC thermal interface material is a sheet-type material available in a variety of thicknesses. This material can be custom-cut to fit any design or application. This advanced electrically insulative material is suitable for applications demanding high thermal performance.

Features
  • Standard sheet size: 400 mm x 400 mm
  • Standard sheet thicknesses: 1.0 mm, 2.0 mm, and 3.0 mm
  • Typical use-temperature range: -40°C to +150°C (-40°F to +300°F)
  • Can be custom-cut based on application? Yes
  • Thermal conductivity: 8.2 W/m⋅K
  • Dielectric breakdown strength: 11.3 kV/mm
Applications
  • Microprocessors
  • Electronic control units
  • Power electronics
  • LED lighting modules
  • Sensors
  • Optical components
  • Laser units
  • Battery modules

COH-3114LVC Thermal Interface Material

画像メーカー品番商品概要概要厚さ入手可能な数量詳細を閲覧
THERMAL INTERFACE PAD, GAP PAD,COH-3114LVC-200-10THERMAL INTERFACE PAD, GAP PAD,200.00mm x 200.00mm0.0390インチ(0.991mm)29 - 即時詳細を閲覧
THERMAL INTERFACE PAD, GAP PAD,COH-3114LVC-200-20THERMAL INTERFACE PAD, GAP PAD,200.00mm x 200.00mm0.0790インチ(2.000mm)24 - 即時詳細を閲覧
THERMAL INTERFACE PAD, GAP PAD,COH-3114LVC-200-30THERMAL INTERFACE PAD, GAP PAD,200.00mm x 200.00mm0.118インチ(3.00mm)2 - 即時詳細を閲覧
THERMAL INTERFACE PAD, GAP PAD,COH-3114LVC-400-10THERMAL INTERFACE PAD, GAP PAD,400.00mm x 400.00mm0.0390インチ(0.991mm)23 - 即時詳細を閲覧
THERMAL INTERFACE PAD, GAP PAD,COH-3114LVC-400-20THERMAL INTERFACE PAD, GAP PAD,400.00mm x 400.00mm0.0790インチ(2.000mm)10 - 即時詳細を閲覧
刊行: 2019-01-10