Constitutive modeling and simulation of polyethylene foam under quasi-static and impact loading

IF 3.2 4区 工程技术 Q2 CHEMISTRY, APPLIED Journal of Cellular Plastics Pub Date : 2023-12-26 DOI:10.1177/0021955x231224769
Zhiqiang Fu, Wujie Zhang, Tong Zhao, Yan Wang, L. Duan, Haozhe Liu
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Abstract

In this paper, quasi-static and dynamic compression experiments were carried out on polyethylene foam by a universal material testing machine and a drop tower impact device. The mechanical response characteristics and energy absorption capacity of polyethylene foam under quasi-static and moderate strain rate (4 × 10−3–102s−1) loading conditions were obtained. An improved constitutive model of strain-rate term coupling strain and strain rate was established based on the Sherwood–Frost phenomenological constitutive model and Johnson–Cook constitutive model. Low Density Foam model combined in the finite element software ABAQUS with the improved constitutive model was used as the parameter definition of polyethylene foam material in the simulation. The drop-tower impact tests at different heights were simulated, and the simulation results were compared with the actual drop tower impact test results. The results showed that the peak acceleration errors between simulation and experiment were less than 7.1%, verifying the accuracy of the constitutive model. This study provides a method of constitutive models and finite element simulation to the performance of polymer foams.
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准静态和冲击载荷下聚乙烯泡沫的构造建模与模拟
本文利用万能材料试验机和落塔冲击装置对聚乙烯泡沫塑料进行了准静态和动态压缩实验。获得了聚乙烯泡沫在准静态和中等应变速率(4 × 10-3-102s-1)加载条件下的力学响应特性和能量吸收能力。在 Sherwood-Frost 现象构成模型和 Johnson-Cook 构成模型的基础上,建立了应变与应变率耦合的应变率项改进构成模型。在有限元软件 ABAQUS 中将低密度泡沫模型与改进的构成模型相结合,作为聚乙烯泡沫材料的模拟参数定义。模拟了不同高度的落塔冲击试验,并将模拟结果与实际落塔冲击试验结果进行了比较。结果表明,模拟与实验的峰值加速度误差小于 7.1%,验证了构成模型的准确性。这项研究为聚合物泡沫的性能提供了一种构成模型和有限元模拟的方法。
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来源期刊
Journal of Cellular Plastics
Journal of Cellular Plastics 工程技术-高分子科学
CiteScore
5.00
自引率
16.00%
发文量
19
审稿时长
3 months
期刊介绍: The Journal of Cellular Plastics is a fully peer reviewed international journal that publishes original research and review articles covering the latest advances in foamed plastics technology.
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