A physically-based, quasilinear viscoelasticity model for the dynamic response of polyurea

Rodney J. Clifton; Xinjie Wang; Tong Jiao

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A physically-based, quasilinear viscoelasticity model for the dynamic response of polyurea

机译：基于物理的准线性粘弹性模型，用于聚脲的动态响应

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摘要

Polyurea, a promising material for damage mitigation in impact scenarios, has been investigated through plane-wave, pressure-shear plate impact (PSP1) experiments to obtain its mechanical response at high pressures and high strain rates. Based on these experimental results, a physically-based, quasi-linear, viscoelasticity model is introduced to capture the observed nonlinear pressure-volume behavior, the strong dependence of shearing resistance on pressure, and the strong relaxation of deviatoric stresses. This model has been implemented in finite element software ABAQUS to simulate the response of polyurea P1000 under the impact conditions of a variety of PSPI experiments. Simulation results agree reasonably well with those of the experiments.

机译：聚脲是一种在冲击情况下减轻损伤的有前途的材料，已经通过平面波，压剪板冲击（PSP1）实验进行了研究，以获得在高压和高应变速率下的机械响应。基于这些实验结果，引入了基于物理的准线性粘弹性模型，以捕获观察到的非线性压力-体积行为，抗剪切力对压力的强烈依赖性以及偏应力的强烈松弛。该模型已在有限元软件ABAQUS中实现，以模拟聚脲P1000在各种PSPI实验的冲击条件下的响应。仿真结果与实验结果相当吻合。

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来源
《Journal of the Mechanics and Physics of Solids》 |2016年第8期|8-15|共8页
作者
Rodney J. Clifton; Xinjie Wang; Tong Jiao;
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作者单位

School of Engineering, Brown University, 182 Hope Street, Providence, RI 02912, USA;

School of Engineering, Brown University, 182 Hope Street, Providence, RI 02912, USA,State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, People's Republic of China;

School of Engineering, Brown University, 182 Hope Street, Providence, RI 02912, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Polyurea; High pressure; High strain rate; Pressure-shear; Quasilinear viscoelasticity;

机译：聚脲高压力;高应变率压力剪切拟线性粘弹性;

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1. Viscoelastic properties and shock response of coarse-grained models of multiblock versus diblock copolymers: Insights into dissipative properties of polyurea [J] . Arman B., Reddy A.S., Arya G. Macromolecules . 2012,第7期

机译：多嵌段与二嵌段共聚物的粗粒模型的粘弹性和冲击响应：对聚脲耗散性能的认识
2. Prediction of Viscoelastic Properties with Coarse-Grained Molecular Dynamics and Experimental Validation for a Benchmark Polyurea System [J] . Agrawal Vipin, Holzworth Kristin, Nantasetphong Wiroj, Journal of Polymer Science, Part B. Polymer Physics . 2016,第8期

机译：粗粒分子动力学预测粘弹性质及基准聚脲体系的实验验证
3. Applicability of the time–temperature superposition principle in modeling dynamic response of a polyurea [J] . J. Zhao, W. G. Knauss, G. Ravichandran Mechanics of Time-Dependent Materials . 2007,第3a4期

机译：时间-温度叠加原理在聚脲动态响应建模中的适用性
4. Determining the Shear Relaxation Modulus and Constitutive Models for Polyurea and Polyurea-Based Composite Materials from Dynamic Mechanical Testing Data [C] . Zhanzhan Jia, Alireza V. Amirkhizi, Wiroj Nantasetphong, SEM International Congress Exposition on Experimental and Applied Mechanics . 2016

机译：从动态机械测试数据确定聚脲和基于聚脲复合材料的剪切弛豫模量和组成型模型
5. Effect of polyurea on dynamic response and fracture resistance of steel plates under impulsive loads. [D] . Amini, Mahmoud Reza. 2007

机译：脉冲载荷下聚脲对钢板动力响应和抗断裂性能的影响。
6. A Hyper-Viscoelastic Constitutive Model for Polyurea under Uniaxial Compressive Loading [O] . Yang Bai, Chunmei Liu, Guangyan Huang, 2010

机译：单轴压缩载荷下聚脲的超粘弹性本构模型
7. Applicability of the time–temperature superposition principle in modeling dynamic response of a polyurea [O] . J. Zhao, W. G. Knauss, G. Ravichandran 2008

机译：时间-温度叠加原理在聚脲动态响应建模中的适用性

A physically-based, quasilinear viscoelasticity model for the dynamic response of polyurea

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