用HJC本构模型评价co - tuf超高性能混凝土的弹道冲击响应

IF 2.1 Q2 ENGINEERING, CIVIL
R. Perkins, C. Duncan, Daniel Johnson, T. Stone, J. Sherburn, M. Chandler, Robert Moser, B. Paliwal, R. Prabhu, Y. Hammi
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引用次数: 0

摘要

混凝土在抗压载荷中提供优越的强度,并在许多应用中实现。高抗压强度使混凝土能够抵抗高应变率加载场景,如弹道冲击。本研究对多种抗压强度为210 MPa的高性能混凝土进行了评价,代号为Cor-Tuf。通过有限元分析评估了该混凝土在弹道冲击高应变率载荷下的响应。为了捕捉混凝土的响应,实现了一种称为HJC模型的塑性和损伤本构模型。通过侧限压缩实验、无侧限压缩实验和冲击实验,对模型参数进行了标定。以610 ~ 1112 m/s的速度冲击混凝土目标,并与已有实验数据进行了对比。结果表明,HJC模型可以较好地预测这种冲击对混凝土目标的响应,平均误差为5.85%。本研究的结果提供了可以用HJC混凝土模型实现的参数,为未来的研究模拟co - tuf UHPC的响应提供了参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of the ballistic impact response of Cor-Tuf UHPC concrete using the HJC constitutive model
Concrete offers superior strength in compressive loadings and is implemented for many applications. The high compressive strengths enable concrete to resist high strain rate loading scenarios such as ballistic impacts. A variety of concrete denoted as Cor-Tuf, which is classified as ultra-high-performance concrete with a compressive strength of 210 MPa, is evaluated in this study. The response of this concrete is assessed through a finite element analysis under the high strain rate loadings of ballistic impacts. To capture the response of the concrete, a plasticity and damage constitutive model denoted as the HJC model is implemented. The parameters of this model are calibrated to the Cor-Tuf concrete using confined compression experiments, unconfined compression experiments, and shock experiments. The concrete target is impacted at speeds between 610 m/s through 1112 m/s, and the results are compared to existing experimental data. Our results show that the HJC model can predict the response of this impact to the Cor-Tuf concrete targets as an average error of 5.85% is found. The results of this study present parameters which can be implemented with the HJC concrete model for future studies to model the response of the Cor-Tuf UHPC.
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来源期刊
CiteScore
4.30
自引率
25.00%
发文量
48
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