毛細管作用力 的英文怎麼說

中文拼音 [máoguǎnzuòyòng]
毛細管作用力 英文
capillary force
  • : hairdownfeatherfur
  • : 形容詞1 (條狀物橫剖面小) thin; slender 2 (顆粒小) in small particles; fine 3 (音量小) thin ...
  • : Ⅰ名詞1 (管子) pipe; tube 2 (吹奏的樂器) wind musical instrument 3 (形狀似管的電器件) valve;...
  • : Ⅰ動詞1 (使用) use; employ; apply 2 (多用於否定: 需要) need 3 (敬辭: 吃; 喝) eat; drink Ⅱ名...
  • : Ⅰ名1 (力量; 能力) power; strength; ability; capacity 2 [物理學] (改變物體運動狀態的作用) forc...
  • 毛細 : capillary
  • 用力 : exert oneself; put forth one's strength
  1. The water can be sucked up near the surface by capillary attraction.

    水能由於而被吸引到靠近道路表面的地方。
  2. Capillarity ( capillary action ) the rise or fall of liquids in narrow tubes as a result of the surface tension of the liquid, which causes the water to adhere to solid surfaces, such as soil particles or the walls of xylem vessels

    現象() :由液體表面張引起的液體在中上升或下降的現象,現象引起水和固體表面的粘合,例如土壤顆粒或木質部導壁。
  3. In this paper, thermal evolution history of organic matter of the source rocks and hydrocarbon generation history have been researched by tti method, hydrocarbon migration direction and migration times were probed combining with the area structure development feature ; distribution pattern of the main reservoir intervals on lateral and longitudinal have been predicted by researching on development feature and control factors of the reservoir intervals, the actions of reservoir conditions in hydrocarbon accumulation and bearing also were probed combining with pore evolution feature ; the micro - pore feature of regional cap and direct seal in carboniferous - lower triassic in this area have been determined with micro - capillary pressure curve and intrusive mercury curve ; the prospecting districts have been pointed out combining with the hydro - geologic feature, the potential reservoirs were classified according to trap types in this area, the author attempt to evaluate on the hydrocarbon - bearing condition in the str ata of carboniferous ~ lower triassic from hydrocarbon generation and migration reservoir condition, reserved condition etc, and predict the reservoir types and hydrocarbon - bearing patterns combining with the structure evolution. based on above, the author point out that the central block of chenghu - tuditang synclinorium and the southern block of dangyang synclinorium are the advantageous regions for exploration

    本文tti方法研究了烴源巖有機質的熱演化史和油氣生成史,並結合區內構造發育特徵,探討油氣在區域上的運移方向和在時間上的運移期次;通過對儲集層段的發育特徵和控制因素的研究,預測了本區主要的儲集層段在橫向上和縱向上的分佈規律,並結合孔隙演化特徵,探討儲集條件在油氣聚集成藏中的;利曲線法和壓汞法,對石炭系?下三疊統的區域蓋層和直接蓋層的微孔隙特徵進行了定量評價,並結合水文地質分佈特徵,指出有利於油氣保存的地區;根據區內存在的各種圈閉類型,對可能存在的油氣藏進行了分類,並試圖從油氣的生成與運移、儲集條件、保存條件等方面,動態地綜合評價石炭系?下三疊統油氣成藏條件,並結合構造演化特徵,預測其油氣藏類型和成藏模式。
  4. With experiments and theoretical analyzing, we find when the heat discharge is smaller than the entrainment limited, what influences the ability of heat - transmitting of work quality is the quantity of injection and dry limit fluid inventory, the optimum quantity of injection of the three working fluid is 8 ~ 14g ; and the delivering factor that transmission coefficient is determined by capillary limit, not the heat transmission ability of the thermal syphon. therefore, among the three working fluid, acetone is the best. low wind - speed has the obvious function in heat transmission of the thermal syphon

    本文通過實驗研究和理論分析,認為在熱流量小於攜帶極限時,影響工質傳熱能的是cpu重的充液量和其乾涸極限,此次所實驗的三種工質,最佳充液量應當在8g ~ 14g ;傳輸因素主要決定普通熱極限,而不是重傳熱能的決定因素;三種工質中的最佳工質是丙酮;小風速時風速的變化對cpu重的傳熱有明顯的,但在風速大於1m / s以後,風速增加對于cpu重的傳熱能的增加效果減緩。
  5. The mechanism of sealing for hydrocarbon and nonsealing for water is capillarity

    敖古拉斷裂封烴泄水的主要機理是
  6. Ultrafine a - ahoa powder with average crystalline size of 27nm and spherical secondary partical shape of 40nm has been prepared by the method of adding dispersant before reaction. after discussing the agglomeration mechanism, the paper studies the way to eliminate the hard agglomeration. it thinks that main reasons to lead to agglomeration are larger specific surface area and high reactivity of nanopowder

    認為導致團聚的主要原因是:納米粉體顆粒的表面有許多斷鍵,相互之間或與其它物質之間容易產生、氫鍵、化學鍵等多種,在採取措施消除團聚的過程中必須全方位考慮,實現全程式控制制。
  7. The study indicates that, the slippage effect is a combined result of gas molecule slip on capillary wall and gas molecular diffusion inside capillary tube, and also a result of combination of concentration and pressure fields

    研究認為,氣體滑脫效應是壁處氣體分子滑流和內部氣體分子擴散的綜合效應,是濃度場和壓疊加的結果。
  8. A new method which carried out the self - assembly of drug - loading nanoparticles and stent by comprehensively applying the micro - forces such as dielectrophoretic force, capillary force, and hydrophobic force is put forward, and the self - assembly process schematic drawing is given

    同時提出綜合應介電泳動、和組件的疏水性等微觀,實現載藥納米顆粒與血支架自組裝的方法,並給出了自組裝的實現工藝圖。
  9. The molecular sieve 4a produced by our factory refers to natrium of model a crystal structure, which can absorb critical molecule no more bigger than 4a. it is mainly used for dehydration of airtight gas or liquid in static state. it is used as static dessicant for household frozen system, pharmacy packaging, motor aircondition, electrical parts and chemical products easily to degenerate and used as dehydrating agent for dope plastic system

    高效除味劑是一種多孔的含碳物質,其發達的空隙結構使它具有很大的表面積,還有更小的孔-,具有很強吸附能,無污染,無毒副,無任何化學添加劑,對人體無害,是天然環保產品。
  10. Many academicians researched their formation and accumulation mechanism and put forward manifold mechanisms, including the special mechanism of minority liquid molecular controlling the accumulation of lens reservoir by unknown gravitation, difference between liquid pressure compelling hydrocarbon to accumulate firstly in the lens reservoir, along cranny in the case of hydrocarbon replacing pore water in the lenticular body under capillary pressure, difference breakthrough employing hydrocarbon entering lens reservoir and so on

    國內外學者提出了多種成藏機制,包括未知重運動機製下,少數流體分子的個別特性控制透鏡狀砂巖油藏聚集;下油氣替換透鏡體中的孔隙水;烴濃度差是油氣向砂體運移的主要動;流體壓差使油氣首先沿著裂隙向砂巖透鏡體中運移、聚集而成藏;差異突破使砂巖透鏡體成藏等。
  11. The motivating force of primary migration is the coalition of buoyancy and capillary pressure

    油氣運移的動是浮的共同
  12. There are two characters in this study : ( 1 ) considering the capillary attraction and van der wall force under nano - scale and observing the fact that the hardness without considering adhesion effect is much larger ; ( 2 ) obtaining hardness by the energy method and considering the effects of elastic work due to elastic recovery and adhesion work due to adhesive forces

    本論文最大特色在於( 1 )在奈米尺度下,考慮凡得瓦毛細管作用力對于奈米壓痕試驗之影響,並發現如果不考慮黏滯效應所得之硬度將遠大於薄膜真實硬度? ( 2 )以能量的方式求得硬度,並考慮材料彈性回復所產生的彈性功與黏滯效應所產生的黏滯功兩者對硬度之影響。
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