Calibration and surrogate model-based sensitivity analysis of crystal plasticity finite element models

Hugh M J Dorward; David M Knowles; Eralp Demir; Mahmoud Mostafavi; Matthew J Peel

doi:10.1016/j.matdes.2024.113409

Calibration and surrogate model-based sensitivity analysis of crystal plasticity finite element models

Hugh M J Dorward^*, David M Knowles, Eralp Demir, Mahmoud Mostafavi, Matthew J Peel

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

3 Citations (Scopus)

Abstract

Crystal plasticity models are powerful tools for predicting the deformation behaviour of polycrystalline materials accounting for underlying grain morphology and texture. These models typically have a large number of parameters, an understanding of which is required to effectively calibrate and apply the model. This study presents a structured framework for the global sensitivity analysis of the effect of crystal plasticity parameters on model outputs. Due to the computational cost of evaluating crystal plasticity models multiple times within a finite element framework, a Gaussian process regression surrogate was constructed and used to conduct the sensitivity analysis. Influential parameters from the sensitivity analysis were carried forward for calibration using both a local Nelder-Mead and global differential evolution optimisation algorithm. The results show that the surrogate based global sensitivity analysis is able to efficiently identify influential crystal plasticity parameters and parameter combinat

Original language	English
Article number	113409
Number of pages	13
Journal	Materials and Design
Volume	247
Early online date	29 Oct 2024
DOIs	https://doi.org/10.1016/j.matdes.2024.113409
Publication status	Published - 4 Nov 2024

Bibliographical note

Publisher Copyright:
© 2024 The Author(s)

Keywords

Calibration
Crystal plasticity
Sensitivity analysis
Gaussian process
Surrogate model

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10.1016/j.matdes.2024.113409Licence: CC BY

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SINDRI: Synergistic utilisation of INformatics and Data centRic Integrity engineering
Mostafavi, M. (Principal Investigator)
1/05/21 → 30/04/26
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Alam, S. R. (Manager), Williams, D. A. G. (Manager), Eccleston, P. E. (Manager) & Greene, D. (Manager)
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Cite this

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title = "Calibration and surrogate model-based sensitivity analysis of crystal plasticity finite element models",

abstract = "Crystal plasticity models are powerful tools for predicting the deformation behaviour of polycrystalline materials accounting for underlying grain morphology and texture. These models typically have a large number of parameters, an understanding of which is required to effectively calibrate and apply the model. This study presents a structured framework for the global sensitivity analysis of the effect of crystal plasticity parameters on model outputs. Due to the computational cost of evaluating crystal plasticity models multiple times within a finite element framework, a Gaussian process regression surrogate was constructed and used to conduct the sensitivity analysis. Influential parameters from the sensitivity analysis were carried forward for calibration using both a local Nelder-Mead and global differential evolution optimisation algorithm. The results show that the surrogate based global sensitivity analysis is able to efficiently identify influential crystal plasticity parameters and parameter combinat",

keywords = "Calibration, Crystal plasticity, Sensitivity analysis, Gaussian process, Surrogate model",

author = "Dorward, \{Hugh M J\} and Knowles, \{David M\} and Eralp Demir and Mahmoud Mostafavi and Peel, \{Matthew J\}",

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doi = "10.1016/j.matdes.2024.113409",

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T1 - Calibration and surrogate model-based sensitivity analysis of crystal plasticity finite element models

AU - Dorward, Hugh M J

AU - Knowles, David M

AU - Demir, Eralp

AU - Mostafavi, Mahmoud

AU - Peel, Matthew J

PY - 2024/11/4

Y1 - 2024/11/4

N2 - Crystal plasticity models are powerful tools for predicting the deformation behaviour of polycrystalline materials accounting for underlying grain morphology and texture. These models typically have a large number of parameters, an understanding of which is required to effectively calibrate and apply the model. This study presents a structured framework for the global sensitivity analysis of the effect of crystal plasticity parameters on model outputs. Due to the computational cost of evaluating crystal plasticity models multiple times within a finite element framework, a Gaussian process regression surrogate was constructed and used to conduct the sensitivity analysis. Influential parameters from the sensitivity analysis were carried forward for calibration using both a local Nelder-Mead and global differential evolution optimisation algorithm. The results show that the surrogate based global sensitivity analysis is able to efficiently identify influential crystal plasticity parameters and parameter combinat

AB - Crystal plasticity models are powerful tools for predicting the deformation behaviour of polycrystalline materials accounting for underlying grain morphology and texture. These models typically have a large number of parameters, an understanding of which is required to effectively calibrate and apply the model. This study presents a structured framework for the global sensitivity analysis of the effect of crystal plasticity parameters on model outputs. Due to the computational cost of evaluating crystal plasticity models multiple times within a finite element framework, a Gaussian process regression surrogate was constructed and used to conduct the sensitivity analysis. Influential parameters from the sensitivity analysis were carried forward for calibration using both a local Nelder-Mead and global differential evolution optimisation algorithm. The results show that the surrogate based global sensitivity analysis is able to efficiently identify influential crystal plasticity parameters and parameter combinat

KW - Calibration

KW - Crystal plasticity

KW - Sensitivity analysis

KW - Gaussian process

KW - Surrogate model

U2 - 10.1016/j.matdes.2024.113409

DO - 10.1016/j.matdes.2024.113409

M3 - Article (Academic Journal)

SN - 0264-1275

VL - 247

JO - Materials and Design

JF - Materials and Design

M1 - 113409

ER -

Calibration and surrogate model-based sensitivity analysis of crystal plasticity finite element models

Abstract

Bibliographical note

Keywords

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Projects

SINDRI: Synergistic utilisation of INformatics and Data centRic Integrity engineering

Equipment

HPC (High Performance Computing) and HTC (High Throughput Computing) Facilities

Cite this