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Heat can be transmitted by convection, radiation and conduction. Graphite can be bifurcated in natural graphite and synthetic graphite. Natural graphite can be further classified into lamellar graphite, vein graphite and microcrystalline graphite (cryptocrystalline). While synthetic graphite can be subdivided into primary synthetic graphite, secondary synthetic graphite and graphite fibers. Thermal pyrolytic graphite is a unique synthetic graphite material produced by chemical vapor deposition (CVD) process, consisting of excellent thermal conductivity in the plane (less than 1500 W / mK) and layers of blueprints. graphene stacked.
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Various properties of graphite in different industry applications such as transportation, defense and Medicine. These properties of graphite can probably lead the graphite market to high thermal conductivity. High thermal resistance, low friction and self-lubrication, high electrical conductivity, high thermal conductivity, low wettability by liquid metals and high resistance. These properties of graphite lead the market of graphite materials with high thermal conductivity. Some of the other exclusive clusters of graphite properties are thermal conductivity and thermal resistance, low wettability by liquid metals and self-lubrication.
The crystalline structure of graphite contains hexagonal rings formed of thin parallel plates called graphenes. Graphene is an excellent heat conductor and can be used as a heat spreader, graphene based nanocomposites, thermal interface materials (TIM), thermal greases and others. Thermal greases are thin films between a heat source such as a heat sink and a microprocessor. The graphite material has a higher thermal conductivity than the thermal conductivity of copper. The graphite material with high thermal conductivity is divided into various applications, including thermal cores in printed circuits, finned heat sinks, light-emitting diodes, heat sinks in electronic packaging, thermal management solutions, substrates and fixtures. of laser diodes. The graphite material with thermal conductivity can be measured in the range of 3000 W / mK to 5000 W / mK at room temperature
The graphite market with high thermal conductivity can be segmented according to the final application and of the region. In terms of end-use, the market can be divided into electronics, aeronautics and others. The electronics is still sub-segmented into PPC (Personal Computer Panel), PC, LED Light, and Smartphone. The graphite material with high thermal conductivity has the ability to disperse heat and improve electronic functions. The nanoelectronics and microelectronics market is likely to hinder the market for high thermal conductivity materials for electronic applications. However, graphene materials having excellent thermal conductivity hold enormous potential for electronic application.
The thermal properties of graphene are used to improve thermal management and loop heat pipes in aerospace and satellite applications. The graphite material for high thermal conductivity can also be used in propulsion in the space, because of its strong interface with light. However, the thermal management system is a serious problem in the microelectronics industry now a few days. Although innovative materials with high thermal conductivity, decreased size and increased power, a very low and low thermal expansion coefficient are expected to solve these thermal management system problems.
North America, Europe, Asia Pacific, Latin America and the Middle East and Africa. North America held a considerable share of the market for graphite materials with high thermal conductivity in 2017. The Asia-Pacific is one of the key regions for the market of graphite materials with thermal conductivity high and is expected to expand in the coming years. Considering that, the market in Latin America and the Middle East and Africa is expected to grow at a steady pace over the forecast period.
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The main players in the global high thermal conductivity graphite market are GrafTech, Panasonic, Kaneka, JONES, Tanyuan Tech, Selen Science & Technology and Zhongyi Garbon Technology. [19659002AboutUs
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