US2015159970A1PendingUtilityA1

Thermal transfer catalytic heat dissipation method

Assignee: TCY TEC CORPPriority: Dec 11, 2013Filed: May 28, 2014Published: Jun 11, 2015
Est. expiryDec 11, 2033(~7.4 yrs left)· nominal 20-yr term from priority
F28F 13/185F28F 2013/006F28F 13/00F28F 2275/025F28F 2255/20
42
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Claims

Abstract

A thermal transfercatalytic heat dissipation method is disclosed, comprises steps of disposing a thermal transfer interface on a heat source; and disposing a carbon nanoparticles which have a hexagonal carbon ring geometry based heat dissipation film on at least a face of the thermal transfer interface, so that the hexagonal carbon ringed nanometer heat dissipation film dissipates the heat source after the thermal transfer interface absorbs the heat source, so that the heat is directed effectively to the ambient through the film, avoiding a thermal transfer drop between the thermal transfer interface and the air, and achieving in that a thermal transfer effectiveness is promoted, a thermal transfer bottleneck is effectively reduced, heat dissipation fins are saved, a heat dissipation cost is largely reduced, a volume and weight is reduced, a consumption of the raw material is reduced and a purpose of energy saving and carbon reduction is achieved.

Claims

exact text as granted — not AI-modified
1 . A thermal transfer catalytic heat dissipation method, comprises steps of:
 disposing a thermal transfer interface on a heat source; and   disposing a carbon nanoparticles which have a hexagonal carbon ring geometry based heat dissipation film on at least a face of the thermal transfer interface, so that the hexagonal carbon ringed nanometer heat dissipation film dissipates the heat source after the thermal transfer interface absorbs the heat source.   
     
     
         2 . The thermal transfercatalytic heat dissipation method as claimed in  claim 1 , wherein the thermal transfer interface is combined with the heat source at a surface thereof, and the hexagonal carbon nanoparticles heat dissipation film is combined with the other face of the thermal transfer interface. 
     
     
         3 . The thermal transfercatalytic heat dissipation method as claimed in  claim 2 , wherein the thermal transfer interface is combined with the heat source through a glue. 
     
     
         4 . The thermal transfercatalytic heat dissipation method as claimed in  claim 2 , wherein the thermal transfer interface is combined with the heat source through a high heat dissipation insulating layer. 
     
     
         5 . The thermal transfercatalytic heat dissipation method in  claim 2 , wherein the thermal transfer interface comprises a heat dissipation assembly, a fan, and a water cooler heat dissipation element. 
     
     
         6 . The thermal transfercatalytic heat dissipation method as claimed in  claim 1 , wherein another hexagonal carbon nanoparticles heat dissipation film is further disposed between the heat source and the thermal transfer interface.

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