A SPH Simulation Approach using the Carreau Model for the Free Surface Flow of Adhesives

Marcus Rohler, Vakul Kumar, C. Richter, G. Reinhart
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Abstract

Adhesives are gaining importance in different industries, but the planning of the bonding process is subject to a high degree of uncertainty caused by the complex flow behavior of adhesives. Therefor the shear-thinning behavior which characterizes many types of adhesives is integrated into the Implicit Incompressible Smoothed Particles Hydrodynamix (IISPH) approach, which is ideally suited for free surface flow scenarios through its mesh-less characteristics. While these particle-based methods are already being used in the real-time simulation of Newtonian fluids in computer graphics, their applicability in engineering disciplines and simulation of complex fluid flows still has to be tested. The Carreau model has already been validated experimentally for accurately portraying the shear-thinning behavior of adhesives. In this work the Carreau model is integrated into the IISPH solver and the simulation results are compared to an analytical solution of the Poiseuille pipe flow. This approach can then be applied to lower the uncertainty in the early phase of manufacturing planning and for simulation-based optimization approaches involving rheological flow behavior.
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胶粘剂自由表面流动的一种基于careau模型的SPH模拟方法
胶粘剂在不同的行业中越来越重要,但由于胶粘剂复杂的流动特性,粘接过程的规划受到高度不确定性的影响。因此,将多种胶粘剂的剪切减薄特性集成到隐式不可压缩光滑颗粒水动力学(IISPH)方法中,该方法通过其无网格特性非常适合于自由表面流动场景。虽然这些基于粒子的方法已经在计算机图形学中用于牛顿流体的实时模拟,但它们在工程学科和复杂流体流动模拟中的适用性仍有待测试。careau模型已经被实验验证,可以准确地描述胶粘剂的剪切减薄行为。本文将careau模型集成到IISPH求解器中,并将模拟结果与泊泽维尔管流的解析解进行了比较。该方法可用于降低制造计划早期阶段的不确定性,以及涉及流变行为的基于仿真的优化方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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