超導體損耗 的英文怎麼說

中文拼音 [chāodǎosǔnhào]
超導體損耗 英文
superconductor loss
  • : Ⅰ動詞1 (越過; 高出) exceed; surpass; overtake 2 (在某個范圍以外; 不受限制) transcend; go beyo...
  • : 動詞1. (引導) lead; guide 2. (傳導) transmit; conduct 3. (開導) instruct; teach; give guidance to
  • : 體構詞成分。
  • : 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. Abstract : experiments were made on a ultrasonic machining tool with work - piece adhered to ultrasonic transducer head, to machine micro - holes on hard and brittle materials such as soda glass and si, to study the effects of tool materials , work - piece materials , amplitude , machining load , slurry concentration , tool length and the size of work - piece on machining rate and wear ratio. in this experiment, the micro - tool was made through wedg

    文摘:通過以wedg放電加工手段製作微細聲加工用工具,在採用工件加振方式的微細聲加工機上對碳酸玻璃、半硅等硬脆材料試件進行微孔加工的實驗,來探討在某一特定加工條件下工具材料、工件材料、工件的振幅、加工靜載荷、磨料懸浮液濃度、工具長度及工件尺寸等重要因素對加工速度、工具率的影響,為微細聲加工技術的實用化提供參考依據。
  2. Superconductivity - ac loss measurements - magnetometer methods for hysteresis loss in cu nb - ti multifilamentary composites

    性.交流電測量. cu nb - ti多絲復合磁滯的磁強計測量法
  3. Superconductivity - part 13 : ac loss measurements ; magnetometer methods for hysteresis loss in cu nb - ti multifilamentary composites

    性.第13部分:交流電測量. cu nb - ti多芯復合磁滯的磁強計測量法
  4. In this paper, the research progress of ac losses of high temperature superconductors and the existing problems on ac losses investigation are introduced ; the characteristics of the critical current and ac losses of hts tapes, stacked tapes and hts coil, such as electro - magnetic characteristics, the anisotropy, the mechanics characteristics and the effects of insular layer between stacked tapes and the influence of frequency of ac transport current etc, are investigated

    本文在系統介紹高溫的交流及其研究現狀與存在問題的基礎上,從理論和實驗兩方面,研究了bi系高溫單根帶材、多根並聯組合帶材、及線圈的臨界電流與交流的特性:重點研究了交流與臨界電流的電磁特性、機械特性、各向異性特性、及帶間絕緣層與傳輸電流頻率對交流的影響等。
  5. There is integrated theoretic calculation, simple field, eliminate the reference of tan to rs, but the result comes from two samples without the conclusion of the conductor loss of cylindrical cavity

    但是這種方法的測試結果是兩片膜的平均值,而且未考慮到金屬腔的和其它一些因素引入的誤差。
  6. Based on the effective mass theory and critical state model, an anisotropic theory of critical current and ac losses for single hts tape and tape stacks were established. analytical formulae were presented to calculate critical currents and ac losses with an arbitrary angle between the wide side of hts tape and the direction of ac or dc applied fields. from the anisotropic theory of ac losses of hts sample, a numerical model to calculate ac losses of hts coil was developed

    基於臨界態模型與高溫的有效質量理論,建立了高溫帶材及並聯堆疊帶材的交流與臨界電流的各向異性理論模型;給出了高溫帶材的交流及臨界電流隨(交、直流)背景磁場與帶面夾角變化規律的理論公式;依據所建立的高溫短樣帶材的各向異性理論公式,給出了高溫線圈交流的數值計算模型;並利用該模型,計算了高溫雙餅線圈的交流;並與實驗測量結果進行了比較分析。
  7. Abstract : one of the unsolved problems of the high power application of high temperature superconductors is how to lower the energy dissipation induced by flux motion. due to the extremely high anisotropy, small coherence length and weak pinning potential, the mixed state phase diagram which is tightly related to the flux dynamics becomes very complicated. a brief account is given of the field induced crossover of criticalities of energy dissipation, which has been observed in our recent sensitive electromagnetic measurement

    文摘:高溫在強電方面應用的關鍵問題是如何克服磁通運動所造成的能量.由於存在極強的各向異性、短的相干長度和小的磁通釘扎勢,因此與磁通運動緊密相關的混合態相圖變得很復雜.文章綜述了根據一系列靈敏的電磁測量所觀察到的磁場誘的能量散行為的轉變
  8. With a longer time horizon we are exploring super - conductivity and - even beyond the fringesof & quot; respectable & quot; science - tesal waves as ways of beaming energy with minimal loss

    在相當長一段時間內,我們還在探索,甚至特斯拉波束,這種「值得敬重」屬于科學邊緣最小能方法。
  9. Some of the most obvious derive from superconductors ' ability to carry high currents with no energy losses or resistive heating

    其中最直接的應用,就是著眼于可以攜帶高電流,卻沒有能量或是因電阻而發熱的問題。
  10. These copper oxide ceramics conduct electricity without loss at temperatures far higher than those needed for conventional superconductors, albeit still far below room temperature

    高溫採用銅氧化物陶瓷材料,比起傳統的,它可以在溫度高出許多的環境下傳電流,而且不會,雖然這個溫度仍比室溫低得多。
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