本发明允许通过在室温和常压下烧结而制造导电的和半导电的结构和片。
The invention permits the manufacture of conductive and semiconductive structures and pieces by sintering at room temperature and at normal pressure.
图尔所在实验室发明的纳米管混合体中,既含半导电的纳米管,又有导电纳米管。
The mixture of nanotubes created in Tour’s lab includes both semiconducting nanotubes and conducting nanotubes.
用导电或半导电层把电缆的电场封闭在包围着导线的绝缘层中。
Use of conductive or semiconductive layer of the cable electric closed in around the wire insulation layer.
导电或半导电层紧紧地贴合在绝缘的内表面和外表面上。
Conductive or semiconductive layer tightly attached on the insulated inner surface and the outer surface of.
屏蔽层的导电率是由连同半导电层所采用的金属带或线的截面积和电阻率所决定的。
Shielding layer conductivity is made together with the semiconductive layer adopts metal strip or wire cross-sectional area and the resistivity is determined by the.
本文首先介绍了国内电缆半导电屏蔽层电阻率的测试现状,在此基础上提出了本课题的研究意义和研究内容。
In the first part, the article introduces the recent tests about the resistivity of the semi-conductive shield, and then it proposes this research's significance and contents.
对含半无限长直线裂纹的无限大导电薄板的热电磁止裂问题进行了研究。
The thermo electromagnetic crack preventing process was studied in the infinite thin conducting plate loath a semi infinite straight crack within .
借此制成一种电阻的温度系数为正、工作温度较高的半导电电缆料。
Thereby a semiconductive material has been developed with positive temperature coefficient of resistivity and with higher operating temperature for cables.
塑料没有任何这些问题,使半导电塑料铺平了道路较大的半导体元件。
Plastic does not have any of these problems, so that semi-conducting plastics are paving the way for larger semiconductor components.
叙述了一种新型的半导电屏蔽阻水带,适用于电力电缆的绝缘屏蔽。
This paper presents a new type of semi-conductive water-blocking tape used for the insulation shield in power cables.
本文对以eva为基体树脂,炭黑为导电填料的半导电复合物的物理力学性能及电性能进行了研究。
A study has been carried out about conductivity and mechanical properties of semiconductive composites based on EVA as base resin and carbon black as conductive filler.
交变电磁场是针对煤粉气流在着火过程中有关特征发生变化:煤粉颗粒的半导电性;
The electromagnetic filed influence the ignition process on that: pulverized coal particles as semiconductor;
交变电磁场是针对煤粉气流在着火过程中有关特征发生变化:煤粉颗粒的半导电性;
The electromagnetic filed influence the ignition process on that: pulverized coal particles as semiconductor;
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