1) volume of fluid
流体体积分数
1.
Based on its algorithm for Cartesian coordinate systems,definition of the function of volume of fluid and a revised coefficient are introduced,and Youngs method is developed for axisymmetric coordinate systems.
根据流体体积分数的定义 ,在直角系Youngs算法的基础上 ,通过引入修正系数 ,可以方便地实现Youngs算法在轴对称柱坐标系中的应用 。
2) volume percentage of mobile fluid
可动流体体积百分数
1.
The effects of porous microstructure features on porosity and permeability,volume percentage of mobile fluid and pressure sensitivity were also analyzed.
气测渗透率和微裂缝宽度、微观均质系数、相对分选系数和可动流体体积百分数等都有明显的幂律关系。
3) keeping fluid volume fraction method
流体体积分数保持法
1.
A new method (keeping fluid volume fraction method) using triangle meshes for moving-interfaces reconstruction in VOF method is presented.
针对处理无结构三角形网格上运动界面问题的流体体积函数(VOF)法提出一种新的界面重构算法——流体体积分数保持法。
5) volume fraction
体积分数
1.
Effect of NO_2 combination at atmospheric pressure on measurement of its volume fraction by ultraviolet absorption;
常压N_2O_4合成对基于紫外吸收的NO_2体积分数测量的影响
2.
Quantitative solution of volume fraction of interface in cementitious composites;
水泥基复合材料界面过渡区体积分数的定量计算
3.
Research status of the volume fraction and the material properties of functionally gradient materials;
梯度功能材料的体积分数和物性系数的研究状况
6) volume ratio
体积分数
1.
The distributions and characteristics of non-metallic micro-inclusions of GCr15 and SS400 casting slabs in process of BOF-LF-VD-CC were analyzed by metallographic volume ratio method,in virtue of tracer method and electronic microscope.
结果表明,GCr15轴承钢显微夹杂体积分数为0。
2.
0-3 type modified PZT/PVDF piezoelectric composites with different volume ratio were prepared by High-temperature-pressing technique.
采用复合材料模压工艺,制备了体积分数不同的改性PZT(含铌的钛锆酸铅)/PVDF(聚偏二氟乙烯)压电复合材料。
3.
The influence of different volume ratios on the dielectric and piezoelectric properties of PZT/PVDF composites was studied and compared with the theoretical values proposed by Furukawa et al.
系统地研究了PZT体积分数对材料介电、压电性能的影响,并与Furukawa等人的理论预测进行了对比。
补充资料:临界纤维体积分数
分子式:
CAS号:
性质:能使纤维增强复合材料的抗张强度比纯聚合物基体的抗张强度有所增加时,所需加入纤维的最小体积分数。
CAS号:
性质:能使纤维增强复合材料的抗张强度比纯聚合物基体的抗张强度有所增加时,所需加入纤维的最小体积分数。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条