会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • COMPOSITE FOR HEAT-DISSIPATING FILM
    • 复合膜用于散热膜
    • US20110054104A1
    • 2011-03-03
    • US12547510
    • 2009-08-26
    • CHIANG-CHUNG CHANGChun-Ching Hsiao
    • CHIANG-CHUNG CHANGChun-Ching Hsiao
    • C08K3/34
    • C08K5/07C08K3/14C08L27/12
    • The invention provides a composite for coating and sputtering a heat-dissipating film. The composite contains silicon carbide of 25˜30 wt. % (weight percentage), teflon-based resin of 9-11 wt. %, and diluted ketones/alcohols-group material of 60˜65 wt. %. These components are mixed and blended to be capable of being coated, sputtered, and cured into a heat-dissipating film of a specific thickness. As such, the heat-dissipating performance could be conveniently enhanced. There is no need to rely on heat-sinking fins of large surface area. The production cost is reduced, recycling is easier, and the highly contaminating anodizing treatment could be avoided, while the robustness against erosion and harsh weather is still maintained.
    • 本发明提供了一种用于涂覆和溅射散热膜的复合材料。 该复合材料含有25〜30重量%的碳化硅。 %(重量百分比),特氟隆基树脂9-11重量% %,稀释酮/醇类物质为60〜65wt。 %。 将这些组分混合并混合以能够被涂覆,溅射和固化成特定厚度的散热膜。 因此,可以方便地提高散热性能。 没有必要依靠大面积散热鳍片。 生产成本降低,回收更容易,可以避免高度污染的阳极氧化处理,同时保持对侵蚀和恶劣天气的鲁棒性。
    • 2. 发明申请
    • COMPOSITION WITH HEAT DISSIPATION PERFORMANCE OF CERAMICS
    • 具有陶瓷散热性能的组合物
    • US20120049105A1
    • 2012-03-01
    • US13214239
    • 2011-08-22
    • CHUN-CHING HSIAOChiang-Chung Chang
    • CHUN-CHING HSIAOChiang-Chung Chang
    • C09K5/00
    • C09K5/14B22F2998/00C22C29/06C22C29/12C22C29/16C22C32/0015C22C32/0052C22C32/0068C22C1/1036
    • A composition with heat dissipation performance of ceramics includes ceramic particles that take a weight percentage of substantially 25%-90% of the composition, have a particle size substantially between 10-50 μm, and thermal conductivity λ≧25 W/m·K, the ceramic particles being subjected to surface activation treatment; and metal particles that take a weight percentage of substantially 75%-10% of the composition and have thermal conductivity λ≧50 W/m·K. The ceramic particles and the metal particles are subjected to heating under a non-oxidizing environment to a temperature greater than the melting point of the metal but below the melting point of the ceramic particles, so that the metal is molten to form a metal melt that surrounds and bonds the ceramic particles, and then pouring and casting are performed in a non-oxidizing environment. As such, the metal that possesses excellent thermal conduction capability is also imposed with excellent thermal radiation capability of the ceramics.
    • 具有陶瓷散热性能的组合物包括占组合物重量百分比大致为25%-90%的陶瓷颗粒,其粒径基本上在10-50μm之间,导热系数λ≥25W/ m·K, 陶瓷颗粒进行表面活化处理; 和重量百分比为组合物基本上75%-10%并具有λ≥50W/ m·K的热导率的金属颗粒。 将陶瓷颗粒和金属颗粒在非氧化环境下加热到大于金属的熔点但低于陶瓷颗粒的熔点的温度,使得金属熔融形成金属熔体, 围绕并结合陶瓷颗粒,然后在非氧化环境中进行浇注和浇注。 因此,具有优异的导热能力的金属也具有优异的陶瓷热辐射能力。