分析和评估爆炸和冲击荷载下混凝土高压动力构成模型的适用性

IF 5.1 2区 工程技术 Q1 ENGINEERING, MECHANICAL International Journal of Impact Engineering Pub Date : 2024-10-23 DOI:10.1016/j.ijimpeng.2024.105145
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引用次数: 0

摘要

混凝土在爆炸或冲击荷载的影响下表现出复杂的动态力学行为,在处理高度非线性问题时,实验和理论方法存在固有的局限性。随着计算技术和力学的不断发展,对承受强烈动态载荷的混凝土结构的瞬态响应进行高保真模拟成为可能。这种模拟在揭示应力波的传播规律、破坏的发展过程、结构破坏的机理以及进行保护性工程设计方面发挥着至关重要的作用。准确的混凝土材料模型对于进行数值研究至关重要。本文从实验研究和理论建模两个方面回顾了近年来混凝土高压动力构效模型的发展,重点分析和评价了状态方程(EOS)、强度模型和损伤模型的建模方法和主要缺陷。利用单一加载路径下的单元素数值模拟和复杂加载路径下的工程实例数值计算,对 HJC、RHT、KCC 和 CSC 模型以及新开发的孔方模型和颜真模型的预测能力进行了系统分析和比较。分析指出了混凝土高压力学行为和静水压力下损伤累积效应对计算结果的影响。最后,讨论了有限元法中混凝土局部构造模型的固有缺陷、适用性和研究难点。为混凝土结构抗爆和抗冲击数值分析中构造模型的选择和研究提供了参考。
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Analysis and evaluation of suitability of high-pressure dynamic constitutive model for concrete under blast and impact loading
Concrete demonstrates complex dynamic mechanical behaviors under the influence of blast or impact loads, and there are inherent limitations in experimental and theoretical methods when dealing with highly nonlinear problems. As computational technologies and mechanics continue to evolve, it is possible to conduct high-fidelity simulations of the transient response of concrete structures subjected to intense dynamic loads. Such simulations play a crucial role in revealing the propagation laws of stress waves, the progression of damage, the mechanisms of structural failure, and in conducting protective engineering design. An accurate concrete material model is essential for conducting numerical studies. This article reviews the development of high-pressure dynamic constitutive models for concrete in recent years from both experimental research and theoretical modeling perspectives, focusing on the analysis and evaluation of the modeling methods and main shortcomings of the equation of state(EOS), strength model, and damage model. Using single-element numerical simulations under a single loading path and numerical calculations of engineering cases under complex loading paths, a systematic analysis and comparison were conducted on the predictive capabilities of the HJC, RHT, KCC, and CSC models, as well as the newly developed Kong-Fang and Yan-Chen models. It pointed out the impact of high-pressure mechanical behavior of concrete and the cumulative effect of damage under hydrostatic pressure on the calculation results. Finally, a discussion was conducted on the inherent flaws, applicability, and research difficulties of local constitutive models of concrete in the finite element method. This provides a reference for the selection and research of constitutive models when conducting numerical analysis of the blast and impact resistance of concrete structures.
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来源期刊
International Journal of Impact Engineering
International Journal of Impact Engineering 工程技术-工程:机械
CiteScore
8.70
自引率
13.70%
发文量
241
审稿时长
52 days
期刊介绍: The International Journal of Impact Engineering, established in 1983 publishes original research findings related to the response of structures, components and materials subjected to impact, blast and high-rate loading. Areas relevant to the journal encompass the following general topics and those associated with them: -Behaviour and failure of structures and materials under impact and blast loading -Systems for protection and absorption of impact and blast loading -Terminal ballistics -Dynamic behaviour and failure of materials including plasticity and fracture -Stress waves -Structural crashworthiness -High-rate mechanical and forming processes -Impact, blast and high-rate loading/measurement techniques and their applications
期刊最新文献
Crack arrest characteristics and dynamic fracture parameters of moving cracks encountering double holes under impact loads Performance assessment of an innovative light and compact dust shield for DISC onboard Comet Interceptor/ESA space probes Analysis and evaluation of suitability of high-pressure dynamic constitutive model for concrete under blast and impact loading Dynamic failures at the metal-glass interface under impact loading Comparative investigation of shock pressure, shock duration, pressure decay time, and elastic energy of both porous gelatin and pure gelatin in shock state
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