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Auteurs principaux: Luo, Shiyuan, Jiang, Yongxin, Thuillier, Sandrine, Castany, Philippe, Zeng, Liangcai
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2407.09054
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author Luo, Shiyuan
Jiang, Yongxin
Thuillier, Sandrine
Castany, Philippe
Zeng, Liangcai
author_facet Luo, Shiyuan
Jiang, Yongxin
Thuillier, Sandrine
Castany, Philippe
Zeng, Liangcai
contents A simplified 3D FE model based on McCormick's model is developed to numerically predict the spatiotemporal behaviors of the PLC effect in Ti-12Mo alloy tensile tests at 350 degrees C with strain rates from the order of $10^{-4}$ s$^{-1}$ to $10^{-2}$ s$^{-1}$. The material parameter identification procedure is firstly presented in details, and the simulated results are highly consistent with experimental ones, especially in terms of stress drop magnitudes and PLC band widths. The distribution of simulated stress drop magnitudes at a constant tensile velocity (0.01 mm/s) follows a normal distribution and its peak value is in the range of 26-28 MPa. Furthermore, the simulated band width slightly fluctuates with the increase of true strain and its average value is about 1.5 mm. Besides, the staircase behavior of strain-time curves and the hopping propagation of the PLC band are observed in Ti-12Mo alloy tensile process, which are related to the strain localization and stress drop magnitudes.
format Preprint
id arxiv_https___arxiv_org_abs_2407_09054
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Numerical Analysis on the Spatiotemporal Characteristics of the Portevin-Le Chatelier Effect in Ti-12Mo Alloy
Luo, Shiyuan
Jiang, Yongxin
Thuillier, Sandrine
Castany, Philippe
Zeng, Liangcai
Classical Physics
A simplified 3D FE model based on McCormick's model is developed to numerically predict the spatiotemporal behaviors of the PLC effect in Ti-12Mo alloy tensile tests at 350 degrees C with strain rates from the order of $10^{-4}$ s$^{-1}$ to $10^{-2}$ s$^{-1}$. The material parameter identification procedure is firstly presented in details, and the simulated results are highly consistent with experimental ones, especially in terms of stress drop magnitudes and PLC band widths. The distribution of simulated stress drop magnitudes at a constant tensile velocity (0.01 mm/s) follows a normal distribution and its peak value is in the range of 26-28 MPa. Furthermore, the simulated band width slightly fluctuates with the increase of true strain and its average value is about 1.5 mm. Besides, the staircase behavior of strain-time curves and the hopping propagation of the PLC band are observed in Ti-12Mo alloy tensile process, which are related to the strain localization and stress drop magnitudes.
title Numerical Analysis on the Spatiotemporal Characteristics of the Portevin-Le Chatelier Effect in Ti-12Mo Alloy
topic Classical Physics
url https://arxiv.org/abs/2407.09054