表面张力是影响多相体系的相间传质和反应的关键因素之一,是重要的液体物理性质。
Surface tension, one of the key influence factors to the mass transfer and reaction of multiphase system, is an important physical property of liquid.
从某种意义上讲,润湿性、表面张力等物理参数是影响空间材料制备能否成功的关键问题之一。
In a sense, wettability, surface tensity and other physical parameters are some of the key factors for the material manufacture in outer space.
采用表(界)面张力等温线比较法评价了单一乳化剂、物理混合乳化剂、混合磷脂膜乳化剂的乳化能力,为乳化剂的选择提供依据。
The emulsification of single emulsifier, physical mixed emulsifier and phospholipids membrane emulsifier were evaluated by the method of surface (interfacial) tension isothermal curve comparison.
我们可以持续运用更多的物理定律方程,比方弹性系数,外表张力,转动效应,然后把它们编码到环境中去。
We can continue to apply additional formulas of physical rules, such as elasticity, surface tension, and spin effects, and code them into the environment.
阐明了表面张力系数的物理意义;
The physical significance of the surface tension coefficient is expounded;
他们目前的术语,关系,并用来确定机械和物理性能,包括强度,张力,不同绳结构耐久性计算。
They present the terminology, relationships, and calculations used to determine mechanical and physical properties, including strength, tension, and durability of different rope structures.
表面张力是控制血液凝固机制的最重要的物理学参数。
Surface tension is the most important physical parameter governing the clotting mechanism of blood.
研究了在松式与紧式两种张力状态下液氨处理对苎麻机织物的物理机械性能与染色性能的影响。
The effect of liquid ammonia treatment under slack and tight tension on the mechanical properties and dyeing behaviour of ramie woven fabric is investigated.
研究了在松式与紧式两种张力状态下液氨处理对苎麻机织物的物理机械性能与染色性能的影响。
The effect of liquid ammonia treatment under slack and tight tension on the mechanical properties and dyeing behaviour of ramie woven fabric is investigated.
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