探讨了采用电流变液体作为驻退液的火炮反后坐装置的可行性。
The significance of design evaluation of recoil system was introduced, and virtual prototyping model of gun was established.
论述了电流变液体在火炮反后坐装置中应用的有关理论、结构和实验。
This paper describes the theory, structure and experiment of ER fluid application in gun recoil system.
通过对电流变液体的机理特性研究,分析计算电流变液体在电场中的抗剪屈服应力。
Through the research of the mechanism of electrorheological fluid, analyze the shear yield stress of electrorheological fluid in the electric field6.
电流变液体作为一种智能材料,其力学性能(粘度、剪切强度等)可以通过外加电场而得到连续调控。
Electrorheological fluids is an intelligent material, its mechanical performance (such as viscosity, shearing strength and so on) can be regulated continuously by the applied field.
本文将其用于环形间隙通道外置的双缸电流变液体减振器。同时,对电流变液减振器在同时外加电场和垂直磁场作用下阻尼力的变化进行了理论研究和台架实验研究。
In this paper, the shock absorber with two-cylinder used them as the working fluids, in the outside cylinder there is a ring-liked gap channel around the electric pole.
电流变液是具有高介电常数的固体微粒分散于低介电常数的绝缘液体中所形成的一类稳定悬浮液。
Electrorhological (er) fluids are formed with small particles of high dielectric constant dispersed in fluids of low electric fields.
该过程基于一种名为电流变的概念,在该过程中,流体可以从液体转变成像果冻一样粘稠。或者在电场中,呈现相反地情况。
Thee process relies on a concept called electrorheology, in which a fluid can morph from a liquid to a JELL-O–like consistency, or the other way around, in an electric field.
该过程基于一种名为电流变的概念,在该过程中,流体可以从液体转变成像果冻一样粘稠。或者在电场中,呈现相反地情况。
Thee process relies on a concept called electrorheology, in which a fluid can morph from a liquid to a JELL-O–like consistency, or the other way around, in an electric field.
应用推荐