Multi-objective parameter identification and optimization for dislocation-dynamics-based constitutive modeling of Ti–6Al–4V alloy

Based on the plastic deformation mechanism and dislocation dynamics theory, a constitutive model to describe the mechanical behavior of the Ti–6Al–4V alloy over a wide range of strain rates and temperatures is proposed. The relationships between the constitutive model parameters and microstructural...

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Published inJournal of alloys and compounds Vol. 821; p. 153460
Main Authors Wang, Yuntian, Zeng, Xiangguo, Sheng, Ying, Yang, Xin, Wang, Fang
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 25.04.2020
Elsevier BV
Subjects
Advanced genetic algorithm
Constitutive model
Constitutive models
Deformation mechanisms
Dislocation dynamics
Genetic algorithms
Hypercubes
Identification methods
Latin hypercube sampling
Mathematical models
Mechanical properties
Multiple objective analysis
Optimization
Parameter identification
Parameter optimization
Parameter sensitivity
Plastic deformation
Sensitivity analysis
Titanium base alloys
Ti–6Al–4V alloy
Yield strength
Ti–6Al–4V alloy
Constitutive model
Advanced genetic algorithm
Parameter optimization
Dislocation dynamics
Online AccessGet full text
ISSN0925-8388
1873-4669
DOI10.1016/j.jallcom.2019.153460

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Abstract Based on the plastic deformation mechanism and dislocation dynamics theory, a constitutive model to describe the mechanical behavior of the Ti–6Al–4V alloy over a wide range of strain rates and temperatures is proposed. The relationships between the constitutive model parameters and microstructural characteristics, as well as their physical significance, were described. The constitutive model contains 12 parameters. A new hybrid approach was developed to obtain the constitutive parameters from the existing experimental data. There were two main parts of the approach. First, to analyze the overall constitutive parameter sensitivity, the Latin hypercube sampling (LHS) and Spearman rank correlation (SRC) methods were applied. The effectiveness and accuracy of the parameter identification and sensitivity analysis results were improved significantly. Second, the parameter optimization was developed using an advanced genetic algorithm including the enhanced niche genetic algorithm, suspicious peak point judgment strategy, and local accuracy searching technology. Finally, the flow stress–plastic strain curve of the Ti–6Al–4V alloy over a wide range of strain rates and temperatures was reproduced through the proposed method. It was shown that the predicted results agreed reasonably well with the existing experimental data. •New method for building physically based constitutive model for Ti–6Al–4V is proposed.•Intelligent algorithms used to optimize multi-objective constitutive parameters.•Good agreement between the constitutive model prediction and experimental data.•Great reference for identification of other material constitutive parameters.•Applicable for sensitivity analysis and identification of constitutive parameters.
AbstractList Based on the plastic deformation mechanism and dislocation dynamics theory, a constitutive model to describe the mechanical behavior of the Ti–6Al–4V alloy over a wide range of strain rates and temperatures is proposed. The relationships between the constitutive model parameters and microstructural characteristics, as well as their physical significance, were described. The constitutive model contains 12 parameters. A new hybrid approach was developed to obtain the constitutive parameters from the existing experimental data. There were two main parts of the approach. First, to analyze the overall constitutive parameter sensitivity, the Latin hypercube sampling (LHS) and Spearman rank correlation (SRC) methods were applied. The effectiveness and accuracy of the parameter identification and sensitivity analysis results were improved significantly. Second, the parameter optimization was developed using an advanced genetic algorithm including the enhanced niche genetic algorithm, suspicious peak point judgment strategy, and local accuracy searching technology. Finally, the flow stress–plastic strain curve of the Ti–6Al–4V alloy over a wide range of strain rates and temperatures was reproduced through the proposed method. It was shown that the predicted results agreed reasonably well with the existing experimental data.
Based on the plastic deformation mechanism and dislocation dynamics theory, a constitutive model to describe the mechanical behavior of the Ti–6Al–4V alloy over a wide range of strain rates and temperatures is proposed. The relationships between the constitutive model parameters and microstructural characteristics, as well as their physical significance, were described. The constitutive model contains 12 parameters. A new hybrid approach was developed to obtain the constitutive parameters from the existing experimental data. There were two main parts of the approach. First, to analyze the overall constitutive parameter sensitivity, the Latin hypercube sampling (LHS) and Spearman rank correlation (SRC) methods were applied. The effectiveness and accuracy of the parameter identification and sensitivity analysis results were improved significantly. Second, the parameter optimization was developed using an advanced genetic algorithm including the enhanced niche genetic algorithm, suspicious peak point judgment strategy, and local accuracy searching technology. Finally, the flow stress–plastic strain curve of the Ti–6Al–4V alloy over a wide range of strain rates and temperatures was reproduced through the proposed method. It was shown that the predicted results agreed reasonably well with the existing experimental data. •New method for building physically based constitutive model for Ti–6Al–4V is proposed.•Intelligent algorithms used to optimize multi-objective constitutive parameters.•Good agreement between the constitutive model prediction and experimental data.•Great reference for identification of other material constitutive parameters.•Applicable for sensitivity analysis and identification of constitutive parameters.
ArticleNumber 153460
Author Yang, Xin
Wang, Yuntian
Zeng, Xiangguo
Wang, Fang
Sheng, Ying
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Keywords Ti–6Al–4V alloy
Constitutive model
Advanced genetic algorithm
Parameter optimization
Dislocation dynamics
Language English
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Snippet Based on the plastic deformation mechanism and dislocation dynamics theory, a constitutive model to describe the mechanical behavior of the Ti–6Al–4V alloy...
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StartPage 153460
SubjectTerms Advanced genetic algorithm
Constitutive model
Constitutive models
Deformation mechanisms
Dislocation dynamics
Genetic algorithms
Hypercubes
Identification methods
Latin hypercube sampling
Mathematical models
Mechanical properties
Multiple objective analysis
Optimization
Parameter identification
Parameter optimization
Parameter sensitivity
Plastic deformation
Sensitivity analysis
Titanium base alloys
Ti–6Al–4V alloy
Yield strength
Title Multi-objective parameter identification and optimization for dislocation-dynamics-based constitutive modeling of Ti–6Al–4V alloy
URI https://dx.doi.org/10.1016/j.jallcom.2019.153460
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