晶脆間界 的英文怎麼說

中文拼音 [jīngcuìjiānjiè]
晶脆間界 英文
cell boundary
  • : Ⅰ形容詞(光亮) brilliant; glittering Ⅱ名詞1. (水晶) quartz; (rock) crystal 2. (晶體) any crystalline substance
  • : 形容詞1 (容易折斷破碎) fragile; brittle 2 (較硬的食物容易弄碎弄裂) crisp 3 (聲音清脆) (of ...
  • : 間Ⅰ名詞1 (中間) between; among 2 (一定的空間或時間里) with a definite time or space 3 (一間...
  • : 名詞1 (相交的地方; 劃分的界限) boundary 2 (一定的范圍) scope; extent 3 (按職業、工作或性別等...
  1. With carbon content increasing, the carbide network on the fertile grain boundary sprouting and propagating. the fracture mode has been changed from cleavage to along boundary and the intergranular corrosion induced by solution chromium decreasing

    隨碳含量提高,上碳化物萌發、擴展呈網狀,鑄件斷由解理斷裂發展為沿斷裂,同時鐵素體不銹鋼腐蝕傾向增大。
  2. The maximal power outputs of 37. 0 mw / cm2 and 30. 0 mw / cm2 for the p - and n - type laminated materials respectively at the temperature difference 490 have been experimentally obtained, which are about 2. 5 and 3. 0 times those of - fesi2. chemical analyses show that the interface failure between the bridge alloy and the semiconductor bi2te3 results mainly from the eutectic mixtures with low melting point and brittle compounds formed during welding and long time annealing at 190. it is found that the electrical properties of a laminated structure are mainly controlled by the wettability of the bridge alloy on the semiconductor surface

    發現: 1 )疊層材料具有明顯優于均質材料的熱電性能,在490溫差下, p -型和n -型疊層材料的最大輸出功率分別達到37 . 0和30 . 0 ( mw / cm ~ 2 ) ,是同類型均質- fesi _ 2的2 . 5和3倍; 2 )在焊接過程和190長時退火處理過程中,焊接過渡層合金和基體半導體(特別是bi _ 2te _ 3 )之存在明顯的元素相互擴散,從而在過渡層中形成一些低熔點共體和性化合物,這是導致疊層材料破壞的主要原因; 3 )焊接過渡層合金與半導體基體之的潤濕性是影響面層電性能的主要因素。
  3. However the study of metal - oxide hetero - interface is relatively less because the properties of metals and oxides usually differ extremely from each other. contrary to metals, the oxides are usually very brittle, elastically stiffer, insulating and exhibit less thermal expansion and their crystal lattice constants are different from metals. moreover, the preparation of specimen of metal - oxide interface is very difficult, the observation of searching a suitable interface under the electron microscope is also a tedious work

    然而,對金屬-氧化物面結構的研究卻相對少一些,這主要是由於金屬與氧化物之的性質相差非常大,與金屬相反,氧化物通常很、絕熱、熱膨脹系數小,格常數也不同於金屬,有的甚至相差很大,而且,制備金屬-氧化物面比較困難,在電子顯微鏡下全面地觀察一個合適的面也是一項令人乏味的工作。
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