Study of insulation adhesive based on epoxy resins modified with PEPDMS;
环氧基苯基硅油改性环氧树脂绝缘胶的研究
Influence of insulation on diamond synthesis and its effective monitoring method;
绝缘程度对人造金刚石合成的影响及其有效监测办法
Study on Sialon Insulation Materials for Channel in Coal—Fired MHD Generator;
用于燃煤磁流体发电通道的Sialon绝缘材料的研究
Study on the isolation technology of metal shell plasma electrode pockels cell;
阳极化膜用于等离子体电光开关放电腔绝缘模拟研究
The theories of isolation inspecting in power supply systems are expounded.
介绍了采用不平衡电桥实施直流电源系统在线绝缘监测的原理 ,给出了直流电源系统故障接地电阻阻值及部位比例的理论计算公式 。
The isolation for a giant super-high-voltage transformer is a paramountly important problem in the power system.
大型超高压变压器的绝缘问题是电力系统中的重大课题。
Study and Application of the Main Transformer On-line Insulates Monitor in the Second Electric Power Plant of Hancheng;
韩城二电主变压器绝缘在线监测研究与应用
The On-line Insulates Monitor and Studies Application on the Main Transformer of the 220kV Transformer Substation;
220kV变电站主变压器绝缘在线监测研究及应用
Thesis aiming at the condition that large-acreage contamination flashover happened in electric network many times in our country under bad weather, the cause of large-acreage contamination flashover is analyzed from such ways as the insulated level of the power transformation device, air pollution and meteorologic.
本文针对我国电网在恶劣气候侵袭下,多次发生大面积污闪事故的情况,从输变电设备外绝缘水平、大气污染和气象因素等方面,分析了电网发生大面积污闪的原因,提出了现阶段输变电设备外绝缘配置原则和防污措施。
Study and application of a composite insulating cover;
复合材料绝缘机罩的研制与应用
Contamiation flashover resistant coating was prepared with linear polysiloxane as matrix coating,high grade insulating compound as filler,PTFE as water repellents and compound N 9 as curing agent.
以线型聚硅氧烷为漆基 ,高绝缘材料为填料 ,聚四氟乙烯为助剂及复合型N - 9固化剂配制成防污闪涂料 ,该涂料的防污闪性能优良 ,实际带电运行表明 :在 0 4mg/cm2 盐密、 2 0mg/cm2 灰密下 ,污闪电压达到 36 9k
The polypyrrole (PPy) films with high conductivity and good activity are got by using two steps polymerization methods on the insulating substrate, that is chemical polymerization firstly, and electrochemical polymerization secondly by using the first films as electrode.
在绝缘性陶瓷基底上,运用先化学聚合、再以所得的聚吡咯(PPy)膜为电极进行电化学聚合的两步聚合法生成了电导率较高、活性高的PPy膜。
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