1) solid-liquid coupling experiment
固液耦合实验
1.
The great progress has not been made in solid-liquid coupling experiment for the underground mining because the suitable coupling materials have not been found in long-term.
矿山开采中涌水突水涌沙淹井实验研究都需进行固液耦合相似材料实验,但长期来由于没有寻找到合适的相似材料,井工采矿固液耦合实验一直没有突破性的进展。
2) liquid-solid coupling
液-固耦合
1.
The fluid pressure equation is combined with vibration equation of silicon diaphragm to construct liquid-solid coupling system equations for a micropump.
液体压强矩阵方程和压电硅片振动有限元方程耦合,得到一个包含微泵进出口扩散管的液-固耦合系统振动方程。
3) solid-liquid coupling
固-液耦合
1.
In order to ensure the safety production under the condition of fully-mechanized caving in Dafoshi coal mine of Binchang mining area,we studied the mechanism of roof water inrush resulted from roof fall and simulated the mining process of the first coal mining face using the solid-liquid coupling material.
结合具体工程地质条件,利用固-液耦合相似材料模拟方法对首采工作面综放开采过程进行了研究,分析了裂隙带与冒落带导水通道分布特征,总结了含水层潜水渗流规律。
2.
A Solid-Liquid coupling mathematical model for permeating consolidation problems under finite deformations is built up, which reflects Solid-Liquid mutual coupling.
基于多相连续介质力学的理论,把土体抽象为叠合连续体,建立了有限变形下固-液耦合渗透固结问题的数学模型。
4) fluid-structure interaction
固液耦合
1.
There are broad applications for the research on vibration characteristics of fluid-filled pipeline fluid,which has very important function for the progress of basic science theories and the development of national economy,fluid-structure interaction,the research on vibration characteristics in fluid-filled pipelines are studied,research methods and their application scope are analyzed.
结合充液管道的研究状况,从是否考虑固液耦合两方面划分了充液管道振动特性的研究内容,归纳了其研究方法并对各种方法的适用范围以及优缺点进行了研究,对目前研究中的典型模型进行了探讨,可为今后的研究工作提供一定的参考价值。
2.
The research of the rotary slender beam fluid-structure interaction dynamics analysis was presented the theoretical significance and application for the structure optimized design and the optimization of the process parameters.
管道内旋转细长梁是化工机械、石油钻采工程中的特有结构,开展旋转细长梁固液耦合动力学分析方法研究,对细长梁结构优化设计、工艺参数优选等技术发展具有重要意义。
3.
In view of the problem of pipeline excitation,from the simplified model of water hammer wave and the fluid-solid coupling model of water hammer wave and the influence among fluid-structure interaction,the formula of length between hydraulic parts is deduced in transient excitation of the pipeline.
针对管道的激振响应,分别从水击波的简化模型和考虑管道和流体相互作用的固液耦合模型,推导了管道瞬态激振响应中的激振部件间隔管长计算公式,分析比较了简化模型和耦合模型的不同,并且提出一些防止共振的方法。
6) liquid-structure interaction
液固耦合
1.
In accord with shearing cantilever beam theory,the vibration equation of the rectangular liquid storage structures with liquid-structure interaction has been established.
基于剪切悬臂梁理论建立了矩形贮液结构的液固耦合振动方程。
补充资料:浓氯化钠注射液 ,高渗氯化钠注射液,高张氯化钠注射液
药物名称:浓氯化钠注射液
英文名:Injection 10% Sodium Chloride
别名:浓氯化钠注射液 ,高渗氯化钠注射液,高张氯化钠注射液
外文名: Injection 10% Sodium Chloride, Hypertonic saline
适应症: 用于脱水症及调节体内水与电解质的平衡。
用量用法: 静脉滴注,临用前稀释,用量与浓度视病情需要而定。
注意事项: 心、肾功能不全者慎用。
规格: 注射剂:1g/10ml,本品为氯化钠的高渗灭菌水溶液。
类别:调节水、电解质及酸碱平衡药
英文名:Injection 10% Sodium Chloride
别名:浓氯化钠注射液 ,高渗氯化钠注射液,高张氯化钠注射液
外文名: Injection 10% Sodium Chloride, Hypertonic saline
适应症: 用于脱水症及调节体内水与电解质的平衡。
用量用法: 静脉滴注,临用前稀释,用量与浓度视病情需要而定。
注意事项: 心、肾功能不全者慎用。
规格: 注射剂:1g/10ml,本品为氯化钠的高渗灭菌水溶液。
类别:调节水、电解质及酸碱平衡药
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