摘要
研究了电流变液的微结构本构关系· 其理论框架是基于内变量理论和机理的分析· 电流变液是由高介电常数的颗粒悬浮在某种液体中组成的· 在电场作用下 ,极化的颗粒将沿着电场方向聚集在一起形成链状结构· 颗粒聚集体的大小和方向将随外加电场和应变率的变化进行调整 ,因而可以通过建立起能量守恒方程和力平衡方程来确定颗粒聚集体的大小和方向的变化· 那么 ,一个三维的、清晰的本构关系可以由相互作用能和系统的耗散能导出· 具体考虑和讨论了在简单剪切载荷作用下的系统响应 ,发现电流变液的切变剪薄粘滞系数同系统Mason数之间近似于幂指数 ∝ (Mn) - 0 82 的关系·
A microstructural constitutive theory of ER suspensions was formulated in this investigation. The framework was based on the internal variable theory and the mechanism analysis. The ER suspension consists of fine particles with high dielectric constant and the supporting fluid. Under the action of the electric field, the polarized particles will aggregate together to form the chain_like structures along the direction of the electric field. As the size and orientation of the particle aggregates are volatile, and they adjust according to the applied electric field and strain rate, the energy conservation equation and the force equilibrium equation were thus established to determine the orientation and size of the aggregates. Following that, a three_dimensional, explicit form of the constitutive equation was derived based on the interaction energy and the dissipation function of the system. The response of the system under the action of a simple shearing load was considered and discussed in detail. It is found that the shear_thinning viscosity of an ER suspension is well approximated by the power_law ∝(Mn) -0 82 .
出处
《应用数学和力学》
CSCD
北大核心
2001年第2期167-181,共15页
Applied Mathematics and Mechanics
基金
国家杰出青年科学基金!资助课题 ( 1972 52 0 9)
关键词
电流变液
内变量理论
本构关系
电流变体
electrorheological fluid
internal variable theory
constitutive theorh
