Carbon nano tube composite graphite film for heat dissipation

A carbon nanotube composite and carbon nanotube technology, applied in cooling/ventilation/heating transformation, electrical components, electrical solid devices, etc., can solve problems such as poor thermal conductivity, structural integrity of graphite film and decline in mechanical properties, and achieve Enhanced heat dissipation, superior mechanical properties and flexibility, and improved performance characteristics

Inactive Publication Date: 2015-07-29
SUZHOU CREATIVE CARBON NANOTECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the graphite sheets in the high thermal conductivity graphite film are stacked along the horizontal direction, so that the thermal conductivity in the thickness direction is particularly poor, often only tens of W / mK, or even lower
In the prior art, the thermal conductivity in the thickness direction is generally improved by filling the high thermal conductivity graphite film with thermally conductive fillers, but this attempt often leads to a decline in the structural integrity and mechanical properties of the graphite film.

Method used

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  • Carbon nano tube composite graphite film for heat dissipation
  • Carbon nano tube composite graphite film for heat dissipation

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] Highly oriented pyrolytic graphite film is used as the graphite heat conduction layer with a thickness of 1 μm; the carbon nanotube heat dissipation layer contains 20% by weight of carbon nanotubes, 75% by weight of water-based polyurethane, and 5% by weight of additives; The carbon nanotube heat dissipation layer is directly coated on the graphite heat conduction layer by a spraying process, the coating thickness is 10 μm, and baked and dried at 90° C. for 15 minutes to obtain a carbon nanotube composite graphite film for heat dissipation. The surface coated with the carbon nanotube heat dissipation layer was tested by an infrared emissivity tester, and the infrared emissivity was 0.956. The horizontal thermal conductivity of the carbon nanotube composite graphite film for heat dissipation was tested by a laser thermal conductivity meter, which was ~1400W / mK.

Embodiment 2

[0029] Artificial graphite film is used as the graphite heat conduction layer with a thickness of 15 μm; the weight percentage of carbon nanotubes in the carbon nanotube heat dissipation layer is 5%, the weight percentage of water-based acrylic acid is 90%, and the weight percentage of additives is 5%; silk screen is used In the printing process, the carbon nanotube heat dissipation layer is directly coated on the graphite heat conduction layer with a coating thickness of 0.1 μm, and baked and dried at 90° C. for 15 minutes to obtain a carbon nanotube composite graphite film for heat dissipation. The surface coated with the carbon nanotube heat dissipation layer was tested by an infrared emissivity tester, and the infrared emissivity was 0.95. The horizontal thermal conductivity of the carbon nanotube composite graphite film for heat dissipation was measured by a laser thermal conductivity meter, which was ~1400 W / mK.

Embodiment 3

[0031] Natural graphite is used as the graphite heat conduction layer with a thickness of 15 μm; the weight percentage of graphene in the carbon nanotube heat dissipation layer is 10%, the weight percentage of water-based epoxy resin is 85%, and the weight percentage of additives is 5%; the inkjet printing process is adopted The carbon nanotube heat dissipation layer is directly coated on the graphite heat conduction layer with a coating thickness of 10 μm, and baked and dried at 90° C. for 15 minutes to obtain a carbon nanotube composite graphite film for heat dissipation. The surface coated with the carbon nanotube heat dissipation layer was tested by an infrared emissivity tester, and the infrared emissivity was 0.955. The horizontal thermal conductivity of the carbon nanotube composite graphite film for heat dissipation was tested by a laser thermal conductivity meter, which was ~1400W / mK.

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Abstract

The invention discloses a carbon nano tube composite graphite film for heat dissipation. The carbon nano tube composite graphite film comprises a graphite heat-conduction layer and a carbon nano tube heat-dissipation layer which are compounded with each other, wherein the graphite heat-conduction layer is provided with a first surface and a second surface which are opposite to each other; the first surface and/or the second surface is at least coated with a layer of carbon nano tube heat-dissipation layer. Compared with the prior art, the carbon nano tube composite graphite film has the advantages that the heat dissipation capability of the graphite heat-conduction layer in a vertical direction is enhanced because the surface of the graphite heat-conduction layer is directly coated with the carbon nano tube heat-dissipation layer; meanwhile, the graphite heat-conduction layer has better excellent mechanical performance and flexibility due to the coating of an organic coating, and the using performance of the graphite heat-conduction layer is remarkably improved; a simple and convenient using and coating manner can be applicable to efficient coating of graphite substrates of different morphologies, and thus the carbon nano tube composite graphite film has important commercial value in large-scale application.

Description

technical field [0001] The invention belongs to the technical field of heat conducting materials, in particular to a carbon nanotube composite graphite film for heat dissipation. Background technique [0002] With the development trend of high power and miniaturization of electronic devices, efficient heat dissipation has become a key bottleneck restricting device performance and structural design. A large number of electronic devices are integrated in a small space, which makes it impossible for traditional cooling devices to obtain enough installation space, which greatly restricts the development of micro devices. High thermal conductivity graphite film is a graphite film material with ultra-high thermal conductivity in the horizontal direction. In the microstructure, the highly crystalline graphite sheet structure is precisely stacked together along the horizontal direction, and its thermal conductivity can even reach 1500-2000 W / mK, which is the material with the high...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01L23/373H05K7/20
Inventor 陈名海金赫华李清文
Owner SUZHOU CREATIVE CARBON NANOTECH
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