Modeling the progressive axial crushing of foam-filled aluminum tubes using smooth particle hydrodynamics and coupled finite element model/smooth particle hydrodynamics

L. Aktay; A.F. Johnson; A.K. Toksoy; B.-H. Kroeplin; M. Gueden

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Modeling the progressive axial crushing of foam-filled aluminum tubes using smooth particle hydrodynamics and coupled finite element model/smooth particle hydrodynamics

机译：使用光滑粒子流体动力学和耦合有限元模型/光滑粒子流体动力学对泡沫铝管的渐进轴向破碎进行建模

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As alternatives to the classical finite element model (FEM), a meshless smooth particle hydrodynamics (SPH) method, in which the discrete particles represent a solid domain, and a coupled FEM/SPH modeling technique were investigated for the numerical simulation of the quasi-static axial crushing of polystyrene foam-filled aluminum thin-walled aluminum tubes. The results of numerical simulations, load-deformation histories, fold lengths and specific absorbed energies, were found to show satisfactory correlations with those of experiments and FEM. The results further proved the capabilities of the SPH Method and coupled FEM/SPH modeling technique in predicting the crushing behavior of foam-filled thin-walled tubes.

机译：作为经典有限元模型（FEM）的替代方法，研究了一种无网格的光滑粒子流体动力学（SPH）方法，其中离散粒子表示一个固体域，并研究了FEM / SPH耦合建模技术对拟真模型的数值模拟。聚苯乙烯泡沫填充的铝薄壁铝管的静态轴向破碎。数值模拟，载荷变形历史，褶皱长度和比吸收能量的结果与实验和有限元分析显示出令人满意的相关性。结果进一步证明了SPH方法和FEM / SPH耦合建模技术在预测泡沫填充薄壁管的破碎行为方面的能力。

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《Materials & design》 |2008年第3期|p.569-575|共7页
作者
L. Aktay; A.F. Johnson; A.K. Toksoy; B.-H. Kroeplin; M. Gueden;
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中图分类工程材料学;
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1. Finite element and coupled finite element/smooth particle hydrodynamics modeling of the quasi-static crushing of empty and foam-filled single, bitubular and constraint hexagonal- and square-packed aluminum tubes [J] . L. Aktay, B.-H. Kroeplin, A.K. Toksoy, Materials & design . 2008,第5期

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7. Modeling the progressive axial crushing of foam-filled aluminum tubes using smooth particle hydrodynamics and coupled finite element model/smooth particle hydrodynamics [O] . Aktay Levent, Johnson Alastair F., Toksoy Ahmet Kaan, 2008

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8. Modeling partially coupled objects with smooth particle hydrodynamics [R] . Wingate, C. A. 1996

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Modeling the progressive axial crushing of foam-filled aluminum tubes using smooth particle hydrodynamics and coupled finite element model/smooth particle hydrodynamics

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