聚合物基复合材料把无机物的高模量、尺寸稳定性以及光、电等特性与高分子材料的韧性、易加工性、电绝缘性巧妙地结合起来。
Polymer based composites combined the good process property, electrical insulation and toughness of polymer with the properties of inorganic materials, such as high module, good dimension stability.
用热致液晶聚合物(TLCP)与热塑性塑料(TP)共混制备原位复合材料是增强高分子的重要途径。
Preparing in situ composite by blending thermoplastic polymer (TP) with thermotropic liquid crystalline polymer (TLCP) is one of important approach to reinforce polymer.
采用纳米铁酸镧与高分子复合材料制成湿敏元件。
A humidity sensor is fabricated with the composite material of nanometer lanthanum ferrite and the polymer.
此外,与高分子材料的应力松弛和蠕变相似,在应力作用下复合材料电阻呈现时间依赖性。
The resistance of the composites also demonstrates the creep and relaxation behaviors similar to strain and stress do.
利用该模型,讨论了渗流阈值与导电颗粒的大小及轴长比的关系,得到了导电高分子复合材料的有效电导率随导电颗粒轴长比和半径变化的规律。
The relation between the percolation threshold and the axial ratio and the metal particle size of the metal particle was discussed by the model.
利用该模型,讨论了渗流阈值与导电颗粒的大小及轴长比的关系,得到了导电高分子复合材料的有效电导率随导电颗粒轴长比和半径变化的规律。
The relation between the percolation threshold and the axial ratio and the metal particle size of the metal particle was discussed by the model.
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