A constitutive model for the flow stress behavior and microstructure evolution in aluminum alloys under hot working conditions - with application to AA6099

Håkan Hallberg; Ahmad Chamanfar; Nicholas E. Nanninga

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A constitutive model for the flow stress behavior and microstructure evolution in aluminum alloys under hot working conditions - with application to AA6099

机译：高温条件下铝合金流动应力行为和组织演变的本构模型-应用于AA6099

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摘要

A constitutive model for aluminum alloys under hot working conditions is proposed. The elastic-viscoplastic model is implemented in a finite strain continuum mechanical framework. The model accounts for the interplay between dynamic recovery and recrystalliza-tion during hot working of aluminum alloys and central aspects of microstructure evolution such as grain/subgrain size and dislocation density. The proposed model is generic in the sense that it can be used for arbitrary aluminum alloys, but in order to demonstrate its capabilities, the model is calibrated to a newly developed AA6099 alloy in the present study. The model is thoroughly discussed and details on the numerical implementation as well as on the calibration of the model against experimental data are provided.

机译：提出了热加工条件下铝合金的本构模型。弹性粘塑性模型是在有限应变连续体力学框架中实现的。该模型考虑了铝合金热加工过程中动态恢复和再结晶之间的相互作用，以及微观组织演变的中心方面（例如晶粒/亚晶粒尺寸和位错密度）之间的相互作用。在可以用于任意铝合金的意义上，该模型是通用的，但是为了证明其功能，在本研究中，该模型已针对新开发的AA6099合金进行了校准。对该模型进行了全面讨论，并提供了有关数字实现以及针对实验数据进行模型校准的详细信息。

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来源
《Applied Mathematical Modelling》 |2020年第5期|253-262|共10页
作者
Håkan Hallberg; Ahmad Chamanfar; Nicholas E. Nanninga;
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作者单位

Division of Solid Mechanics Lund University P.O. Box 118 Lund SE-221 00 Sweden;

Accuride Corporation 2315 Adams Lane Henderson KY 42420 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Aluminum alloys; Hot working; Dynamic recovery; Dynamic recrystallization; Grain/subgrain size; Constitutive modeling;

机译：铝合金;热工作;动态恢复;动态重结晶;晶粒/亚晶粒尺寸;本构模型;

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专利

1. Analysis of flow stress and microstructure during hot compression of 6099 aluminum alloy (AA6099) [J] . Chamanfar Ahmad, Alamoudi Mohammed T., Nanninga Nicholas E., Materials Science and Engineering . 2019,第JANa16期

机译：6099铝合金（AA6099）热压过程中的流变应力和组织分析
2. Application of the Constitutive Model in Finite Element Simulation: Predicting the Flow Behavior for 5754 Aluminum Alloy during Hot Working [J] . Chang-Qing Huang, Lei-lei Liu Metals . 2017,第9期

机译：本构模型在有限元模拟中的应用：预测5754铝合金在热加工过程中的流动行为
3. Extrapolation based constitutive modeling of flow stress of titanium alloy sheet under hot-working condition [J] . Guo J., Zhan M., Fu M. W., Materials & design . 2018,第SEPa期

机译：热加工条件下基于外推法的钛合金薄板流动应力本构模型
4. EFFECT OF PREFORM MICROSTRUCTURE ON CONSTITUTIVE BEHAVIOR OF Ti-6Al-4V UNDER CONVENTIONAL HOT-WORKING CONDITIONS [C] . S.L. Semiatin, T.R. Bieler Second International Conference on Light Materials for Transportation Systems (LiMAT-2001) Vol.I May 6-10, 2001 Pusan, Korea . 2001

机译：常规热加工条件下预成型组织对Ti-6Al-4V本构行为的影响
5. Flow Stress and Microstructure Evolution During Hot Forging of AA6099 [D] . Alamoudi, Mohammed Tariq. 2017

机译：AA6099热锻造过程中的流量应力和微观结构演变
6. Hot Deformation Behavior and Microstructure Evolution of 6063 Aluminum Alloy Modified by Rare Earth Y and Al-Ti-B Master Alloy [O] . Wanwu Ding, Xiaoxiong Liu, Xiaoyan Zhao, 2020

机译：稀土y和Al-Ti-B主合金改性6063铝合金的热变形行为和微观结构演化
7. Microstructure Evaluation and Constitutive Modeling of AISI-1045 Steel for Flow Stress Prediction under Hot Working Conditions [O] . Mohanraj Murugesan, Muhammad Sajjad, Dong Won Jung 2020

机译：热工作条件下流动应力预测中AISI-1045钢的组织评价与本构型建模

A constitutive model for the flow stress behavior and microstructure evolution in aluminum alloys under hot working conditions - with application to AA6099

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