Experimental behavior and fracture prediction of a novel high-strength and high-toughness steel subjected to tension and shear loading tests

Shulin Ren , Manchao He , Kuiming Liu , Zhigang Tao
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Abstract

In this study, laboratory testing and numerical simulation methods are used to investigate the mechanical behavior and perform fracture prediction of a novel high-strength and high-toughness steel with a negative Poisson's ratio (NPR) effect under combined tensile-shear loading conditions. A test device capable of meeting different tensile-shear combination test angles is designed and manufactured, wherein the mechanical experiments on the NPR (Negative Poisson's Ratio) steel specimens are carried out at various testing angles. Q235 steel and MG400 steel are used as experimental control groups. The results show that the mechanical deformation of NPR steel is significantly better than that of Q235 steel and MG400 steel. Its tensile-shear test curve has no yield plateau and it has quasi-ideal elastic-plastic mechanical properties. The loading direction gradually changes from tension-dominated to shear-dominated as the tension-shear angle increases, and the strength and deformation of the specimens show a decreasing trend. Based on the laboratory test results, a finite element numerical model of NPR steel is established. A series of numerical simulations are carried out under the conditions of different tension and shear angles and the average stress triaxiality and fracture strain data are obtained. The fracture data of NPR steel are fitted using the Johnson-Cook fracture criterion, and the Johnson-Cook fracture parameters under the tensile-shear test conditions of NPR steel are thus obtained. The numerical simulation verifies that the fracture model can accurately predict the tensile-shear fracture behavior of NPR steel.

新型高强度和高韧性钢在拉伸和剪切加载试验中的行为和断裂预测
本研究采用实验室测试和数值模拟方法研究了具有负泊松比(NPR)效应的新型高强度和高韧性钢在拉伸-剪切组合加载条件下的力学行为并进行了断裂预测。设计并制造了一种能够满足不同拉伸-剪切组合试验角度的试验装置,在不同试验角度下对 NPR(负泊松比)钢试样进行力学试验。实验对照组为 Q235 钢和 MG400 钢。结果表明,NPR 钢的机械变形明显优于 Q235 钢和 MG400 钢。其拉伸-剪切试验曲线没有屈服高原,具有准理想的弹塑性力学性能。随着拉剪角的增大,加载方向逐渐由拉伸为主变为剪切为主,试样的强度和变形均呈减小趋势。根据实验室测试结果,建立了 NPR 钢的有限元数值模型。在不同拉伸角和剪切角条件下进行了一系列数值模拟,得到了平均应力三轴度和断裂应变数据。利用约翰逊-库克断裂准则对 NPR 钢的断裂数据进行拟合,从而得到了 NPR 钢在拉伸-剪切试验条件下的约翰逊-库克断裂参数。数值模拟验证了该断裂模型可以准确预测 NPR 钢的拉伸剪切断裂行为。
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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CiteScore
2.40
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