1) electrical field/electrorheology
电场/电流变体
2) electrohydrodynamic field
电流体场
1.
A brief introduction of the investigations on the interaction between electrostatic and fluid dynamic fields in electrostatic precipitators is presented, and sketchy proposals for further study of the electrohydrodynamic fields are recommended.
对有关电除尘器内电流体场的理论研究和实验方法作了回顾,并通过对现有资料的分析扼要地对进一步的研究提出了建议。
3) Electrorheological fluid
电流变体
1.
Vibration performance of electrorheological fluid-mortar cantilever beams;
电流变体-砂浆复合梁结构的振动特性研究
2.
Dynamic performance of cantilever mortar beams with electrorheological fluid filled in a central crack;
含电流变体的复合砂浆梁振动特性实验研究
4) ER fluid
电流变体
1.
Rheological properties of the ER fluids were measured with a rotational rheometer.
结果表明,两性聚合物作为电流变体的分散相有利于电流变性能的提高,同时发现分散相和分散介质的密度相接近时也有利于电流变性能的提高。
2.
In this paper, the factor influcing the ER effect,the current theories on the mechanism of this phenomenon,and the application of ER fluids have been reviewed.
电流变体是指在电场作用下粘度发生显著改变的悬浮液,人们对此已进行了大量的研究。
3.
Rheological properties of the ER fluids were measured with a rotational rheometer.
结果表明:共轭聚合物作为电流变体的分散相有利于电流变性能的提高,同时发现随分散相的浓度增大其电流变性能随之提高。
5) electrorheological fluids
电流变体
1.
The main factor to determine material performance of electrorheological fluids is the choice of their dispersion.
决定电流变体材料性能的主要因素是其分散相的选择。
2.
The experimental investigations were focused on evaluating the elastodynamic response characteristics of beams featuring electrorheological fluids when the beams were subjected to forced vibration.
本文提出应用电流变体(Electro-RheologicalFluids)材料作为复合材料结构振动主动控制的材料,针对含电流变体材料的智能复合材料悬臂梁,进行了振动的主动控制,测试了智能复合材料悬臂梁在外加电场作用下,弹性模量、衰减系数、固有频率等振动特性的变化,同时,针对不同的梁材料,给出了材料变化对梁振动控制的影响。
3.
In this paper,forced ocsillation experiments of electrorheological fluids have been studied by HAAKE RS600 rheometer and the changes of ERF storage modulus,loss modulus and loss factor with shear stress and shear frequency are obtained for different shear stress rates and oscillation frequencies.
利用HAAKE RS600流变仪对电流变体进行了强制振荡实验研究,得到了流体在不同剪切应力幅和振荡频率下,电流变体储能模量、损耗模量、损耗因子随剪切应力和剪切频率的变化规律。
6) electrical field/electrorheological fluids
电场/电流变液
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