Giovanni M. Furtado, S. Frey, M. Naccache, P. Mendes
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引用次数: 0
摘要
本文讨论弹粘塑性流动的有限元近似。数值模拟旨在研究弹性在粘塑性材料在盖驱动腔内的惯性流动中的作用。力学模型由通常不可压缩流体的控制方程和Oldroyd-B型方程(de Souza Mendes, 2011)组成,该方程经过修改,将松弛时间和延迟时间作为粘塑性粘度对应变率的依赖关系纳入其中。这些参数取决于材料的微观结构,其水平由结构参数描述。该模型由多场Galerkin最小二乘公式(Behr et al., 1993)在额外应力张量、压力场和速度矢量方面近似表示。结果集中在屈服面拓扑结构的确定上,研究了弹性和粘性控制参数对流型的影响。
NUMERICAL SIMULATION OF A ELASTO-VISCOPLASTIC FLUID FLOW INSIDE A CAVITY
This article addresses finite element approximations for elasto-viscoplastic flows. Numerical simulations aiming at investigating the role of elasticity for inertialess flows of viscoplastic materials within lid-driven cavity.The mechanical model is made up of the usual governing equations for incompressible fluids coupled with a Oldroyd-B type equation (de Souza Mendes, 2011) modified to incorporate the dependency both of relaxation and retardation time as the viscoplastic viscosity on the strain rate. These parameters depend on the material microstructure, which level is described by an structure parameter . This model is approximated by a multi-field Galerkin least-squares formulation (Behr et al., 1993) in terms of extra-stress tensor, the pressure field and the velocity vector. Results, focused on the determination of yield surface topology, investigate the influence of elastic and viscous governing parameters on the flow pattern.
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