thermal resistance: 3.9 °C cm2/W
thermal resistance (100 kPa): 0.6 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 3.9 °C cm2/W
thermal resistance (100 kPa): 0.6 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 5.8 °C cm2/W
thermal resistance (100 kPa): 0.9 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 5.8 °C cm2/W
thermal resistance (100 kPa): 0.9 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 7.3 °C cm2/W
thermal resistance (100 kPa): 1.13 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 7.3 °C cm2/W
thermal resistance (100 kPa): 1.13 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 10 °C cm2/W
thermal resistance (100 kPa): 1.55 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 10 °C cm2/W
thermal resistance (100 kPa): 1.55 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 11.9 °C cm2/W
thermal resistance (100 kPa): 1.84 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 11.9 °C cm2/W
thermal resistance (100 kPa): 1.84 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 12.4 °C cm2/W
thermal resistance (100 kPa): 1.92 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 12.4 °C cm2/W
thermal resistance (100 kPa): 1.92 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 15 °C cm2/W
thermal resistance (100 kPa): 2.3 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 15 °C cm2/W
thermal resistance (100 kPa): 2.3 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 17.1 °C cm2/W
thermal resistance (100 kPa): 2.65 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 17.1 °C cm2/W
thermal resistance (100 kPa): 2.65 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 17.8 °C cm2/W
thermal resistance (100 kPa): 2.75 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 17.8 °C cm2/W
thermal resistance (100 kPa): 2.75 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 18.1 °C cm2/W
thermal resistance (100 kPa): 2.81 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
thermal resistance: 18.1 °C cm2/W
thermal resistance (100 kPa): 2.81 °C in2/W
temperature range: -40°C... +150°C
volume resistance: 2,4·1011 Ω·m
- highly thermally conductive silicone foil
- soft, elastic and compressible
- design with hardened surface on one side for better handling
- optimum compensation of air gaps and unevennesses
- customised contour parts according to drawing specifications
|
FRI 7:30 - 15:15