枝晶間的 的英文怎麼說

中文拼音 [zhījīngjiānde]
枝晶間的 英文
interdendritic
  • : Ⅰ名詞1. (枝子) branch; twig 2. (姓氏) a surname Ⅱ量詞1. (用於帶枝子的花朵) 2. (用於桿狀物)
  • : Ⅰ形容詞(光亮) brilliant; glittering Ⅱ名詞1. (水晶) quartz; (rock) crystal 2. (晶體) any crystalline substance
  • : 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...
  • : 4次方是 The fourth power of 2 is direction
  1. 4. under the directional solidification, either sub - or hyper - eutectic alloys, with the increase of growth rate, the lst dendritic arm spacing decreases and 2st dendritic arm spacing is restrained to some extent

    4定向凝固條件下,隨著凝固速率增加,無論亞共合金或過共合金,一次距減小,二次生長得到不同程度抑制。
  2. By compressing a monolayer film, the coexistence of liquid condensed ( lc ) and liquid expanded ( le ) phases can be reached. the transition from le to lc is usually regarded as a first - order one, so the theory of crystallization can be applied. in this article we review our recent studies on the growth of lc domains in the le - lc coexistence region driven by the illumination of a fluorescent microscope. the mechanism of this unusual 2d domain growth phenomenon is discussed. the formation of faceted, dendritic and fractal - like domains as well as the evolution and the transition of these patterns are investigated

    當處于氣液界面類脂類化合物單分子膜被壓縮時,隨著分子縮小,單分子膜將經歷一系列相變過程.通過熒光顯微術可以觀測到新相成核和生長過程.由於單分子膜二維特性,該系統中實驗觀測對于檢驗和發展二維界面生長理論尤為重要.本文總結了近年來本課題組與相關單位合作,在單分子膜系統中發現實驗現象以及對其生長機制系列研究.內容包括對單分子膜系統中成核、界面穩定性、生長、形態演變等觀測和分析
  3. Abstract : by compressing a monolayer film, the coexistence of liquid condensed ( lc ) and liquid expanded ( le ) phases can be reached. the transition from le to lc is usually regarded as a first - order one, so the theory of crystallization can be applied. in this article we review our recent studies on the growth of lc domains in the le - lc coexistence region driven by the illumination of a fluorescent microscope. the mechanism of this unusual 2d domain growth phenomenon is discussed. the formation of faceted, dendritic and fractal - like domains as well as the evolution and the transition of these patterns are investigated

    文摘:當處于氣液界面類脂類化合物單分子膜被壓縮時,隨著分子縮小,單分子膜將經歷一系列相變過程.通過熒光顯微術可以觀測到新相成核和生長過程.由於單分子膜二維特性,該系統中實驗觀測對于檢驗和發展二維界面生長理論尤為重要.本文總結了近年來本課題組與相關單位合作,在單分子膜系統中發現實驗現象以及對其生長機制系列研究.內容包括對單分子膜系統中成核、界面穩定性、生長、形態演變等觀測和分析
  4. The microstructure of lsf components was made up of fine columnar dendrites, which grow epitaxially from the substrate, and the mean primary dendrite spacing was 26. 58 m

    對成形件微觀組織研究發現其組織主要由外延生長細長組成,一次距平均為26 . 58 m 。
  5. Influential factors of primary dendritic arm spacing in high - carbon steel billets

    高碳鋼小方坯一次影響因素
  6. Porosity can be caused by gases coming out of solution during cooling and becoming trapped between dentrite arms as tiny voids

    在冷卻過程中,溶液中氣體逸出造成多孔性,或被截留在杈之形成微小氣孔。
  7. Vigorous convection during the rapid dendritic growth, to aid the dendrite breakup, transfer the newly formed grains throughout the melt, and homogenize the temperature of the melt

    快速形成期,劇烈對流有助於分裂,將新形成顆粒傳遞到整個熔融金屬,使熔融金屬溫度均勻。
  8. The test shows that the cooling speed affects the first arm - spacing and the second arm - spacing, and concluded that they are decreased, the fracture fractographies are improved, and the mechanical properties, especially the toughness, is obviously increased while the cooling speed increases

    摘要試驗表明,冷卻速度增大,使奧氏體一次二次距縮小,斷口形貌改善;並且可使材質綜合力學性能,特別是韌性明顯提高。
  9. Respectively proceeding with bromine complexing agent of anode, modified membrane and electrolytic additive of cathode, mainly referring to specific power of battery, ratio of self - discharge and zinc dendrite, this paper has studied the influences of different anode additive and modified membrane on specific energy of battery by means of charge and discharge curves, and the influences of electrolytic additive ( nh4 +, op - 10, tx - 10 and dodecyl trimethyl ammonium bromide ) on zinc dendrite by means of current - time curve and microscopic morphology observation

    本文分別從正極溴絡合劑、隔膜改性和負極電解液添加劑入手,以電池比能量、自放電率以及鋅生長情況為主要性能指標,用電池充放電曲線等方法研究不同正極添加劑和隔膜改性對電池比能量影響;用電流-時曲線以及微觀形貌觀察等方法研究電解液添加劑( nh _ 4 ~ + 、 op - 10 、 tx - 10以及十二烷基三甲基溴化銨)對鋅生長影響。
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