综述了填充型导热橡胶的导热机理和各类导热填料的导热特性,介绍了提高导热硅橡胶导热性的途径。
Thermal conductive mechanism of filling type thermal conductive silicone rubber and thermal properties of different thermal conductive fillers are reviewed.
橡胶的回弹性大、导热性差、强度低,属于难加工非金属材料之一。
There are many defects in rubber machining due to larger elasticity, lower heat conductivity and strength of rubber.
发现当粒径分布适当时,可得到导热系数高、粘度低的室温硫化导热硅橡胶及导热硅脂。
It was found that RTV silicone rubber or silicone grease had the maximum thermal conductivity and the lowest viscosity, when the filler particle sizes distribution was proper.
指出通过填充不同粒径分布的填料或对填料进行适当的表面处理,可以制备高导热室温硫化硅橡胶。
High thermal conductive room temperature vulcanized silicone rubber could be prepared by filling with different particle size distribution or surface treated fillers.
通过上导热板和下导热板可以对橡胶带进行均匀加热硫化。
The rubber belt can be heated and vulcanized evenly through the upper heat-conducting plate and the lower heat-conducting plate.
通过上导热板和下导热板可以对橡胶带进行均匀加热硫化。
A rubber belt can be heated and vulcanized evenly by the upper heat-conducting plate and the lower heat-conducting plate.
概述了导热电子灌封硅橡胶的研究背景。
The research background of the liquid thermal conductive encapsulated silicone rubber was summarized.
所制备的复合硅橡胶具有很好的物理性能,是作为散热使用的弹性导热垫片的理想材料。
Composite silicone rubber with good thermal conductivity as elastomeric thermal pads for heat dissipation was prepared using Al2O3 or BN fillers.
所制备的复合硅橡胶具有很好的物理性能,是作为散热使用的弹性导热垫片的理想材料。
Composite silicone rubber with good thermal conductivity as elastomeric thermal pads for heat dissipation was prepared using Al2O3 or BN fillers.
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