This article introduces the study and application of the compositing type and structural type conductive plastics.
本文综述了复合型及结构型导电塑料的研究、应用和进展。
The thermal conducting mechanism and the methods of preparation of insulating and thermal conductive plastics were briefly introduced.
介绍了树脂基导热复合材料的导热机理,重点介绍高耐热、高刚性热塑性树脂基复合导热绝缘塑料的制备。
The research indicated that the conductive plastics filled with conductive fiber had the wide prospect because of low conductive filler content while high conductivity.
研究表明,导电纤维可以在低添加量下获得高导电性能,是一种具有广泛应用前景的导电塑料。
The article briefly introduced the effect on conductivity of filled conductive plastics of conductive fiber, and the kinds and research of conductive fiber overseas and domestics.
就导电纤维对复合型导电塑料导电性的影响,导电纤维的种类及国内外研究进展进行了简要的概述。
Kwanghee Lee of Pusan National University, in South Korea, and Alan Heeger of the University of California, Santa Barbara, work on solar cells made of electrically conductive plastics.
韩国釜山国立大学的KwangheeLee和加州大学SantaBarbara分校的AlanHeeger从事研究用导电塑料制作太阳能电池。
Compared with other conductive metal layer, copper coating with small with stress, high mechanical strength, the plastics substrate and coating binding force is good wait for a characteristic.
与其它导电金属层相比,镀铜层具有应力小、机械强度高、塑料基体与镀层结合力好等特点。
The invention also provides a preparation method of the conductive engineering plastics.
本发明还提供了一种导电工程塑料的制备方法。
Thermal conductive insulating PPS plastics were made by extrusion compounding PPS with MgO particles of large particle sizeBF(40~325-mesh)BFQ.
通过聚苯硫醚(PPS)与大颗粒氧化镁(40~325目) 混合经双螺杆挤出机挤出造粒制备了导热绝缘塑料。
Thermal conductive insulating PPS plastics were made by extrusion compounding PPS with MgO particles of large particle sizeBF(40~325-mesh)BFQ.
通过聚苯硫醚(PPS)与大颗粒氧化镁(40~325目) 混合经双螺杆挤出机挤出造粒制备了导热绝缘塑料。
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