電損耗 的英文怎麼說

中文拼音 [diànsǔnhào]
電損耗 英文
electrical loss
  • : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
  • : Ⅰ動詞1 (減少) decrease; lose 2 (損害) harm; damage 3 [方言] (用尖刻的話挖苦人) speak sarcas...
  • : Ⅰ動1 (減損; 消耗) consume; cost 2 [方言] (拖延) waste time; dawdle Ⅱ名詞1 (壞的音信或消息) ...
  • 損耗 : 1. (損失消耗) loss; wear and tear; deterioration; waste 2. [商業] wastage; spoilage
  1. Principles for transmission loss allocation and its analysis

    電損耗的分攤原則
  2. Superconductivity - ac loss measurements - total ac loss measurement of cu nb - ti composite superconducting wires exposed to a transverse alternating magnetic field by a pickup coil method

    超導性.交流電損耗測量.用拾波線圈法測量暴露于橫向交流磁場的cu nb - ti合成超導導線的交流
  3. Superconductivity - part 8 : ac loss measurements ; total ac loss measurement of cu nb - ti composite superconducting wires exposed to a transverse alternating magnetic field by a pickup coil method

    超導性.第8部分:交流電損耗測量.用拾波線圈法測量爆露于橫向交流磁場中合成超導導線的交流
  4. Superconductivity - part 8 : ac loss measurements - total ac loss measurement of cu nb to composite superconducting wires exposed to a transverse alternating magnetic field by a pickup coil method

    超導性.第8部分:交流電損耗測量.用拾波線圈法測量暴露于橫向交流磁場的銅鈮復合超導導線的交流
  5. But there is a main question that pvdf does not be in p phase with higher piezoelectric property, but be in other phases with lower or without piezoelectric property, thus, which can not improve distinctly piezoelectric constant d33, reduce notably dielectric spoilage ( tg5 ) and raise remarkably mechanical coupling factor ( kp ) of 0 - 3 pzt / pvdf piezoelectric composite, so these will restrict its development and application. in this paper, 0 - 3 pzt / pvdf piezoelectric composite will be prepared by room pressing - solidity, high - temperature - pressing and room - pressing techniques respectively

    由於這個壓復合材料體系存在一個主要問題? pvdf在0 ? 3型pzt / pvdf壓復合材料中通常不是以具有較強壓性的相晶態形式呈現,多是以其它的相態存在,不能有效地提高0 ? 3型pzt / pvdf壓復合材料的壓常數d _ ( 33 ) 、降低介電損耗tg和增大機耦合系數kp等壓和介性能,從而嚴重地制約它的發展和應用。
  6. The measurement results from interdigitated capacitors demonstrated that the tunability is 21 % when the bias is 40v and the loss is 0. 25 %

    對于叉指容器結構,當外加直流偏壓為40v時,調節率為21 % ,介電損耗低至0 . 25 % 。
  7. Dielectric dissipation factor

    電損耗因子
  8. Superconductivity - ac loss measurements - magnetometer methods for hysteresis loss in cu nb - ti multifilamentary composites

    超導性.交流電損耗測量. cu nb - ti多絲復合超導體磁滯的磁強計測量法
  9. Superconductivity - part 13 : ac loss measurements ; magnetometer methods for hysteresis loss in cu nb - ti multifilamentary composites

    超導性.第13部分:交流電損耗測量. cu nb - ti多芯復合超導體磁滯的磁強計測量法
  10. Insulating liquids - determination of the dielectric dissipation factor by measurement of the conductance and capacitance - test method

    絕緣液.通過測量導率和容量測定介電損耗系數.試驗方法
  11. Dielectric loss of amorphous alumina films grown by reactive rf magnetron sputtering

    磁控濺射法制備氧化鋁薄膜及其介電損耗
  12. Dielectric loss constant

    電損耗常數
  13. Factors influencing dielectric loss of ba b ' 1 3 b " 2 3 o3 type microwave dielectric ceramics

    3型微波介質陶瓷介電損耗的因素
  14. And the permittivity and dissipation factor on si substrate were 342 and 0. 05 respectively

    在低阻si上制備的bst薄膜介常數為342 ,介電損耗為0 . 05 。
  15. Insulating liquids - determination of dielectric dissipation factor by measurement of the conductance and capacitance - test method

    絕緣液體.通過測量導率和容量來測定介電損耗因數.試驗方法
  16. Insulating liquids - determination of the dielectric dissipation factor by measurement of the conductance and capacitance - test method iec 61620 : 1998 ; german version en 61620 : 1999

    絕緣液體.通過測量導率和容量來測定介電損耗因數
  17. When cu substitutes for co, with the cu increase, the dielectrical constant will reduce, and the peak value of dielectrical loss will move to high frequency

    Cu取代co時,隨著cu的增加,材料的介常數減小,介電損耗的峰值向高頻方向移動。
  18. Considering the influence of dielectric constant, conductivity, and dielectric loss on electrorheological ( er ) effects, an effective approach to prepare supramolecular complex er materials was proposed by self - assembly

    根據介極化理論,從流變液材料物理設計的介常數、導率和介電損耗等參數出發,採用分子自組裝方法,制備出超分子配合物新型流變液材料。
  19. 32 ghz to 1. 91ghz. the complex permittivity peak of nanometer siox and two dielectric losses of cnts are discovered in our experiment which are different from properties of other nanometer materials. we should do the further research to reveal the truth

    在本實驗的工作中發現與其它納米材料不同的現象,納米氧化硅的介常數出現峰值,碳納米管有兩個介電損耗峰,建議以後的工作對其原因進行分析。
  20. From the perspective of minimum transmission losses, an instantaneous reactive power theory for systems with any number of phases and with or without neutral line is developed. under the new definition, each quantity has its own physical meaning, and the zero sequence current can be decomposed into active and reactive components. furthermore, a generalized compensation method for zero sequence current is developed

    從輸電損耗最小的角度出發,提出了任意相無中性線或有中性線系統的瞬時無功功率理論,在新的理論下,每個量都有清晰的物理意義,且能分解出零序流的有功分量和無功分量,並給出了通用的零序流補償方法,揭示了瞬時無功功率理論與傳統平均意義下的無功功率理論的聯系及本質區別,從而為研究hvdc - vsc及各種facts裝置的無功功率控制奠定了理論基礎。
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