奈米石墨烯简介
►奈米石墨烯
纮通企业电子化学材料事业处专业于将奈米石墨烯导热材料,光学材料应用于电子产业的热工程上。已被广泛使用于工业,电子,太阳能,LED,LCD,汽车零组件,电源供应器电源,M / B,无线产品,PC,NB,COOLER ,,液晶电视,PDP电视等散热模组等,秉持着生产优良产品,弹性生产,提供快速服务的信念,持续努力成为现有客户及更多电子产业的优良合作伙伴。石墨烯导热性佳,是世界最高和最强韧的材料,抗拉强度比钢铁3〜4倍,可挠曲,弯折,将石墨烯作为导热粉体应用于聚氨酯合材料中,可大幅提高导热与导电性质在散热表现。使复合薄膜可大大应用于散热领域中,石墨烯的热辐射发射率在红外线范围为0.99,接近理论黑体辐射的热辐射发射率1,因此作为热辐射散热材料有相当大的潜力;相对于铜约0.09及铝约0.02的热辐射系数,石墨烯在散热应用上,兼具了热传导与热辐射的特性。
Hometom’s electrical chemical-materials apartment is specializing in the nano- graphene, which the material has applied to modules and products. And graphene has been used for industrial, electronic, solar, LED, LCD, auto-parts, power suppliers, M/B, wireless products, PC, NB, Cooler, LCD TV, PDP TV and other thermal modules. The thermal radiation of graphene in the infrared range is 0.99, which is close to blackbody radiation’s heat radiation emissivity rate 1.
Therefore, this composite material has greater potential comparing to copper and aluminum, which is about 0.09 and 0.02. Graphene is strong in thermal conductivity, and it’s the world’s thinnest that has strong mechanical strength; the tensile strength is 4 times stronger than steels, it’s flexible and bendable. By utilizing our graphene powder in polyurethane materials, it can substantially improve and raise the thermal conductivity and conductive properties in heat dissipation. Thus the composite films can be broadly applied to the field of heat dissipation.
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