THE EFFECT OF MATERIAL MODELS IN THE FEM SIMULATION ON THE SPRINGBACK PREDICTION OF THE TRIP STEEL

IF 1.1 Q3 METALLURGY & METALLURGICAL ENGINEERING

Acta Metallurgica Slovaca Pub Date : 2021-09-13 DOI:10.36547/ams.27.3.899

P. Mulidrán, E. Spišák, M. Tomáš, J. Majerníková, Ján Varga

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引用次数: 2

Abstract

In this work, the influence of material models used in the FEM simulation on the springback prediction is investigated. The interest of this paper is to extend the knowledge base regarding springback predictions in numerical simulation. The springback effect of a V-shaped sheet metal part made of TRIP steel, with a thickness of 0.75 mm was investigated. The bending angle was set to 90°. In the numerical simulation, Hill48 and Barlat yield criteria were used in combination with Ludwik's and Swift's hardening models. Achieved data from the numerical simulations were compared and evaluated with experimental test results. The experimental results showed the relation between springback and calibration force. The effect of specimen cut direction on the springback was smaller in comparison with the calibration force. The numerical results of the springback were not identical with the experimentally achieved springback values in most cases. Particularly, when a calibration force of 1 800 N was used in the simulation. The simulation results showed a good correlation between experimental and numerical results, when Hill48 and Barlat yield criteria were used in combination with Ludwik hardening law and calibration force F with the value 900 N was applied.

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有限元模拟中材料模型对TRIP钢回弹预测的影响

本文研究了有限元模拟中使用的材料模型对回弹预测的影响。本文的兴趣在于扩展数值模拟中回弹预测的知识库。研究了由TRIP钢制成的厚度为0.75mm的V形金属板件的回弹效应。弯曲角度设置为90°。在数值模拟中，Hill48和Barlat屈服准则与Ludwik和Swift的硬化模型相结合。将数值模拟获得的数据与实验测试结果进行了比较和评估。实验结果表明回弹与标定力之间存在一定的关系。与标定力相比，试样切割方向对回弹的影响较小。在大多数情况下，回弹的数值结果与实验获得的回弹值不一致。特别是当在模拟中使用1800N的校准力时。模拟结果表明，当Hill48和Barlat屈服准则与Ludwik硬化定律结合使用，并施加值为900N的校准力F时，实验结果与数值结果之间具有良好的相关性。

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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