RS PRO Thermal Paste, 3.4W/m·K

Nº de Estoque RS: 909-2092Marca: RS PRO
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Documentos Técnicos

Especificações

Brand

RS Pro

Thermal Conductivity

3.4W/m·K

Maximum Operating Temperature

+125°C

Minimum Operating Temperature

-30°C

Operating Temperature Range

-30 → +125 °C

País de Origem

Taiwan, Province Of China

Detalhes do produto

RS PRO Phase Change Interface Material

RS PRO phase change materials are ideal for thermal management applications. Available in this range are phase change interface materials in sheets, resistor pads and as a dispensable paste.

Phase change materials work because they change their state with changes in temperature between the heat source and the heatsink. During this process, the material stores thermal energy which is then released as the material cools. This means that the material can absorb thermal energy as the heat is generated which helps to keep the desired component cool. This improves contact between the surfaces, completely fillling air gaps and increasing heat transfer.

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P.O.A.

RS PRO Thermal Paste, 3.4W/m·K

1

Disponível em múltiplos de 1
1P.O.A.
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11P.O.A.
12P.O.A.
13P.O.A.
14P.O.A.
15P.O.A.

P.O.A.

RS PRO Thermal Paste, 3.4W/m·K
Informações de estoque temporariamente indisponíveis.

1

Disponível em múltiplos de 1
1P.O.A.
2P.O.A.
3P.O.A.
4P.O.A.
5P.O.A.
6P.O.A.
7P.O.A.
8P.O.A.
9P.O.A.
10P.O.A.
11P.O.A.
12P.O.A.
13P.O.A.
14P.O.A.
15P.O.A.

Documentos Técnicos

Especificações

Brand

RS Pro

Thermal Conductivity

3.4W/m·K

Maximum Operating Temperature

+125°C

Minimum Operating Temperature

-30°C

Operating Temperature Range

-30 → +125 °C

País de Origem

Taiwan, Province Of China

Detalhes do produto

RS PRO Phase Change Interface Material

RS PRO phase change materials are ideal for thermal management applications. Available in this range are phase change interface materials in sheets, resistor pads and as a dispensable paste.

Phase change materials work because they change their state with changes in temperature between the heat source and the heatsink. During this process, the material stores thermal energy which is then released as the material cools. This means that the material can absorb thermal energy as the heat is generated which helps to keep the desired component cool. This improves contact between the surfaces, completely fillling air gaps and increasing heat transfer.