dielectric stress
英 [ˌdaɪɪˈlektrɪk stres]
美 [ˌdaɪɪˈlektrɪk stres]
网络 介电应力
双语例句
- Firstly, the geometric effect and stress effect in twisted optical fiber was solved using the coupled mode theory, and the dielectric constant variation under twist stress was discussed.
首先利用耦合模理论求解了单模光纤扭转的几何效应和应力效应,研究了扭转应力下的介电常量变化。 - Multilayer Ceramic Capacitors ( MLCC), in which hundreds of dielectric layers and internal electrodes are alternately stacked, are sensitive to thermal stress.
多层陶瓷电容器(MLCC)由几百层多层介质材料和金属电极叠加构成,对热应力十分敏感。 - Study on Dielectric Character of SiO_2 under Applied Stress
应力作用下的SiO2介电特性研究 - Low density polyethylene ( LDPE) is one of the most widely used plastic in electrical insulation field, it exhibits excellent dielectric property. However electrical trees initiate and spread easily in LDPE insulation subjected to high electric stress for long-time.
聚乙烯是电气绝缘领域中应用最为广泛的塑料之一,具有良好的电绝缘性能,但在高电场长期作用下,易产生电树枝,导致其绝缘性能下降。 - The dielectric properties, thermal conductivity, integrity and static bend stress were rejuvenated to the condition of new insulation after the injection.
灌注后绝缘的介电特性、热传导性、整体性和静弯曲应力恢复到新绝缘状态。 - This paper discusses the difference of TDDB ( Time Dependence Dielectric Break down) under constant voltage and pulse voltage stress.
本文讨论了在直流电压应力和脉冲电压应力作用下栅氧化膜击穿寿命的差别,脉冲应力下栅氧化膜击穿寿命大于直流电压下的击穿。 - It's adapt to energy storage capacitor when it's used in the transducer So it's very important to pay research on the low dielectric constant, high acoustic impedance, good stress distribution, new encapsulation materials.
因此研究和开发具有低介电、高冲击阻抗及良好力学性能的新型封装材料就显得更加重要。 - Reasons for thermo bimetal's corrosion lie in direct dielectric corrosion and stress flaw corrosion.
热双金属的腐蚀常由介质直接腐蚀和应力裂纹腐蚀所引起。 - Water dielectric, because of its great dielectric constant and high breakdown stress, is extensively used as the energy storage medium in high power pulse conditioning system.
水介质由于具有介电常数大和击穿场强较高的特点,普遍应用于高功率脉冲调制器作中间储能介质。 - Traditional ER fluids are composed of micro-sized dielectric particles and insulating oil, whose yield stress is too small to satisfy the need of the industrial applications.
传统的电流变液材料是由微米介电颗粒和油液共同组成,其屈服切应力常常不能满足实际应用的需要。