Fracture behavior of prestressed ductile target subjected to high velocity impact - Numerical study

Q4 Chemical Engineering

Applied and Computational Mechanics Pub Date : 2022-01-01 DOI:10.24132/acm.2022.779

Yogeshwar Jasra, R. Saxena

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引用次数: 0

Abstract

Impact studies are performed to evaluate the ballistic performance of material subjected to a high strain rate. At high velocities, the projectile penetrates through the material which leads to a fracture of the target body. The fracture behavior depends upon the condition of the target body. It is anticipated that the fracture behavior should depend upon the prestress condition of the target. Considering the aforementioned concern, the thermo-elastic-plastic finite element model is formulated using MSC Marc Mentat to analyze the effect of the prestress condition of the target body on fracture behavior. A detailed comparison has been presented considering four different prestress states subjected to impact by a blunt-shaped projectile. The continuum damage mechanics using a stress triaxiality-based damage model is used to simulate damage evolution and fracture. It is found that the presence of prestress alters the overall fracture response of the structure subjected to high strain rate deformation. In the presence of tensile prestress, the material resists the accumulation of damage which is due to the lower values of stress triaxiality and equivalent plastic strain. It is also found that the presence of tensile prestress inside the target body increases the ballistic performance, whereas the presence of compressive prestress inside the target body degrades the performance.

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高速冲击下预应力延性靶的断裂行为-数值研究

进行冲击研究是为了评估材料在高应变率下的弹道性能。在高速下，弹丸穿透材料，导致靶体断裂。断裂行为取决于靶体的状态。预计断裂行为应取决于目标的预应力条件。考虑到上述问题，利用MSC Marc Mentat建立了热弹塑性有限元模型，分析了靶体预应力条件对断裂行为的影响。考虑钝形弹丸冲击下的四种不同预应力状态，进行了详细的比较。采用基于应力三轴性的损伤模型，采用连续损伤力学方法模拟损伤演化和断裂过程。研究发现，预应力的存在改变了结构在高应变率变形下的整体断裂响应。在拉伸预应力存在的情况下，由于应力三轴性和等效塑性应变值较低，材料可以抵抗损伤的累积。研究还发现，靶体内存在拉预应力可提高靶体的弹道性能，而靶体内存在压预应力则会降低靶体的弹道性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Applied and Computational Mechanics Engineering-Computational Mechanics

CiteScore

0.80

自引率

0.00%

发文量

审稿时长

14 weeks

期刊介绍： The ACM journal covers a broad spectrum of topics in all fields of applied and computational mechanics with special emphasis on mathematical modelling and numerical simulations with experimental support, if relevant. Our audience is the international scientific community, academics as well as engineers interested in such disciplines. Original research papers falling into the following areas are considered for possible publication: solid mechanics, mechanics of materials, thermodynamics, biomechanics and mechanobiology, fluid-structure interaction, dynamics of multibody systems, mechatronics, vibrations and waves, reliability and durability of structures, structural damage and fracture mechanics, heterogenous media and multiscale problems, structural mechanics, experimental methods in mechanics. This list is neither exhaustive nor fixed.