粒間斥力 的英文怎麼說

中文拼音 [jiānchì]
粒間斥力 英文
interparticle repulsion
  • : Ⅰ名 (小圓珠形或小碎塊形物) small particles; grain; granule; pellet Ⅱ量詞(用於粒狀物)
  • : 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...
  • : Ⅰ動詞1 (責備) upbraid; scold; blame; reproach; denounce; reprimand 2 (驅逐; 排斥; 使離開) rep...
  • : 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...
  1. However, for its thin thickness of bound water membrane for the surface of tamped soil particles, its small expulsive force between grains and fast resumption of the strength, tamped soil shows a good thixotropy

    但夯後由于土顆表面的結合水膜厚度薄,粒間斥力小,強度恢復較快,因而又表現出較好的觸變性。
  2. The interactions between particles were discussed based on dlvo and edlvo theories. experiment results show the effect of the ph on the dispersion is due to the repulsion interactions of electrical double layer ; and addition suitable inorganic dispersant or organic macromolecule dispersant results in improvement the stabilization of the dispersion. the main action of the inorganic dispersants is to increase the repulsion interactions of electrical double layer and the main action of organic macromolecule dispersant is to increase hydration shell and steric hindrance

    研究表明: ph對顆分散的影響主要體現在對顆雙電層靜電排的改變;添加合適分散劑可以改變顆在水中的分散性;無機電解質的分散機制主要是增加顆表面的雙電層靜電排作用能,而高分子分散劑的分散機制主要是增加顆的水化膜排能和位阻排能;復合分散劑的分散效果要優于單一分散劑;提出了用經時損失性來評價分散穩定性。
  3. H. moreover, high density is required to increase the chance of collision. hence, the reactions can only take place in the core of the sun, with temperature over ten million degrees 10

    首先核聚變需要極高的溫度,讓氫原子核能有足夠的能量克服原子核之的電排,此外亦需要極高的密度去增加子碰撞的機會,所以核聚變只能在溫度高達10
  4. Through the competition of ionization equilibrium of zno22 - and precipitation reaction, the nucleation and growth process of znse have been adjusted, and monodispersed znse semiconductor hollow microspheres are obtained. these microspheres were found to form through aggregation of small znse nanocrystals sizes of which could be finely tuned by temperature control. a novel gas - liquid interface aggregation mechanism was proposed and this idea might be generalized in other systems

    以zno22 -陰離子提供鋅源,利用它在強堿性溶液中緩慢釋放出zn2 + ,並與se2 -之的電荷排作用,成功地調節了反應動學,獲得了尺寸和分散性都非常均勻的微米級znse空心球,並實現了空心球內部子尺寸的調控,提出了新穎的氣液界面團聚機理。
  5. One charged particle feels the attraction or repulsion of another charged particle because there are many invisible photons going back and forth between the two charged particles to transmit the effect

    帶電子之所以能夠感受到另一帶電子的吸引或排,是因為有很多看不見的光子在兩帶電來回奔走之故。
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