極速滲透 的英文怎麼說

中文拼音 [shèntòu]
極速滲透 英文
very poorly drained
  • : i 名詞1 (頂點; 盡頭) the utmost point; extreme 2 (地球的南北兩端; 磁體的兩端; 電源或電器上電流...
  • : Ⅰ形容詞(迅速; 快) fast; rapid; quick; speedy Ⅱ名詞1 (速度) speed; velocity 2 (姓氏) a surna...
  • : 動詞(液體慢慢地透過或漏出) ooze; seep
  • : Ⅰ動詞1 (滲透; 穿透) penetrate; pass [seep] through 2 (暗地裡告訴) tell secretly; let out; lea...
  • 極速 : running time
  • 滲透 : 1 [物理學] [生理學] osmosis2 (液體從細小空隙中透過) permeate; seep; permeation; seepage; inflow...
  1. Owing to penetration, absorption, and internal lubrication, the homogenizing - dispersing agent filled in rubber compound reduced the difference of viscosity, polarity, surface tension in dissimilar rubbers, and accelerated interfusion, dispersing, homogeneous mixing

    由於均勻分散劑的、吸附及內潤滑作用,減小了不同橡膠間粘度、性和表面張力的差別,達到了快融合、分散、摻混均勻的效果。
  2. In simulations, all important phenomena, such as non - neutral sheath widening near cathode, cathode electron emitting, current channel migrating to the load side of the plasma, ion accelerating toward cathode and magnetic insulation of cathode emitting electrons etc, have been observed and depict the internal physics of this device. also presented is the influence of cathode emitted electrons on phenomena in the conduction processes of pegs. the simulation results show, without cathode emitted electrons, rapid magnetic field penetration takes place only in region near the cathode, with cathode emitted electrons, magnetic field penetration takes place in all plasma region

    診斷發現了陰表面非中性鞘層的形成、陰電子發射、電流通道的漂移、等離子體離子加以及陰電子磁隔離等物理現象,揭示了這一斷路器件的物理機制;分析了陰電子對peos導通過程中的物理現象的影響,模擬結果顯示:忽略陰電子作用,磁場現象主要出現在陰表面區域,考慮陰電子作用,磁場現象出現在整個等離子體區域。
  3. It proposed two development stratagem by swot matrix analysis : implement market penetration strategy, expanding the market share of west china, exploiting the market in the northwest and north of china to realize the new increasing target for corporation ’ s economic benefit

    根據西南電力設計院的經營思想和經營目標,依據swot矩陣匹配分析提出了二個主要市場發展戰略: ( 1 )實施市場戰略,利用區位優勢迅而且大地擴大「西電東送」項目中的市場份額,以保持和擴大經濟效益。
  4. The poor kinetics of anode reaction and methanol crossover in electrolyte are the two key issues hindering dmfc commercial application

    然而甲醇在陽上的氧化率緩慢及甲醇等問題是用於大功率、高容量電池上的兩大技術難題。
  5. Nevertheless, the step toward the practical application has not been developed as fast as had been expected. mainly, there are some problems, such as low electrocatalytic activity of the anodic catalyst, the poisoning of the anode catalysts by the adsorbed carbonyl species derived from methanol oxidation, methanol permeation from anode to cathode and demand for methanol - tolerant oxygen reduction catalyst

    然而,陽催化劑的低催化活性、甲醇氧化中間體羰基物對陽催化劑的毒化、甲醇從陽向陰、以及由甲醇引起的陰氧還原抗甲醇要求等,致使dmfc的實際應用發展度一直沒有預期的快。
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