1) particle flow method
颗粒流法
2) particle flow
颗粒流
1.
Numerical simulation of natural caving method based on particle flow code in two dimensions;
自然崩落采矿法的颗粒流数值模拟
2.
A study on the breakage properties of geological materials using particle flow simulation;
岩土材料破损特性的颗粒流研究
3.
Simulation of soil properties by particle flow code;
颗粒流模拟土的工程特性(英文)
3) particle flow
颗粒流动
1.
Study on limiting concentration of non-uniform particle flow;
不均匀高浓度颗粒流动的极限浓度研究
2.
Experimental investigations on pulsant behaviors of particle flow were carried out on a two-dimensional spouted bed using PIV.
床体的颗粒流动表现出整体的喷动周期性,属于不连贯喷动流型。
3.
At same times,the influence of inner accessories to particle flow was researched.
本文通过对活性焦在矩形移动床中流动特性的试验 研究,确定了要满足活性焦颗粒在床层内为整体流其下料斗的倾角大小,以及颗粒在下料斗上部为平推流的临界高度,并研究了内构件对移动 床内颗粒流动的影响,为合理设计和有效利用床层提供指导。
4) granular flow
颗粒流
1.
The granular flow simulation of physical performance in rock specimen based on distinct element method;
基于离散单元法的石材制品物理性能颗粒流模拟
5) fluid particles
流体颗粒
1.
Approach processes for fluid particles is an very important stage of coalescence processes of fluid particles.
流体颗粒的靠近接触过程是流体颗粒聚并过程中的一个非常重要的的阶段。
2.
Coalescence process of two fluid particles is very complicated.
运用平面膜概念将两流体颗粒靠近接触过程与所挟持液膜的排液减薄过程结合起来 ,建立了两流体颗粒接触挟持液膜最小厚度模型 ,并讨论了粒径比、初始相对速度、界面张力和连续相黏度等因素对最小膜厚度的影响 。
3.
Studies on coalescence between fluid particles have been paid much attention to for many years, since the coalescence plays an important role in many industrial processes such as absorption, extraction, emulsification, polymer blending and so on.
聚并过程包括流体颗粒之间的相互作用及挟持掖膜的排液减薄,因此它比破裂更复杂,使得其不论是理论还是实验研究都较破裂困难。
6) particle flow code
颗粒流
1.
Numerical simulation of Particle Flow Code for pile under uplifting load;
上拔荷载作用下桩的颗粒流数值模拟
2.
Numerical simulation of particle flow code for stress-displacement field to jacked pile down in sand soil
静压桩在砂土沉桩过程中桩周土应力-位移场变化规律的颗粒流数值模拟
3.
Using particle flow code in 2-dimension(PFC2D) to study the meso-mechanics of cone penetration test is a good way,and it will be helpful to the service for practical engineering.
对静力触探试验进行颗粒流模拟,有助于从细观上了解静力触探试验机理,使之更好地服务于工程实际。
补充资料:颗粒
分子式:
CAS号:
性质:指小而圆的物质。最简单的颗粒形状是圆球。粒径在40~500μm范围内,气固密度差在1400~4000kg/m3之间的颗粒称粗颗粒(coarse particle);粒径在20~100μm范围内,气固密度差小于1400kg/m3的颗粒称细颗粒(fime particle);由许多个粒度间隔不大的粒级颗粒构成的颗粒系统称颗粒群(particle swarm)。
CAS号:
性质:指小而圆的物质。最简单的颗粒形状是圆球。粒径在40~500μm范围内,气固密度差在1400~4000kg/m3之间的颗粒称粗颗粒(coarse particle);粒径在20~100μm范围内,气固密度差小于1400kg/m3的颗粒称细颗粒(fime particle);由许多个粒度间隔不大的粒级颗粒构成的颗粒系统称颗粒群(particle swarm)。
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