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Artificial neural network for correction of effects of plasticity in equibiaxial residual stress profiles measured by hole drilling

Research output: Journal contributionsJournal articlesResearchpeer-review

Standard

Artificial neural network for correction of effects of plasticity in equibiaxial residual stress profiles measured by hole drilling. / Chupakhin, Sergey; Kashaev, Nikolai; Klusemann, Benjamin et al.
In: The Journal of Strain Analysis for Engineering Design, Vol. 52, No. 3, 01.04.2017, p. 137-151.

Research output: Journal contributionsJournal articlesResearchpeer-review

Harvard

Chupakhin, S, Kashaev, N, Klusemann, B & Huber, N 2017, 'Artificial neural network for correction of effects of plasticity in equibiaxial residual stress profiles measured by hole drilling', The Journal of Strain Analysis for Engineering Design, vol. 52, no. 3, pp. 137-151. https://doi.org/10.1177/0309324717696400

APA

Chupakhin, S., Kashaev, N., Klusemann, B., & Huber, N. (2017). Artificial neural network for correction of effects of plasticity in equibiaxial residual stress profiles measured by hole drilling. The Journal of Strain Analysis for Engineering Design, 52(3), 137-151. https://doi.org/10.1177/0309324717696400

Vancouver

Chupakhin S, Kashaev N, Klusemann B, Huber N. Artificial neural network for correction of effects of plasticity in equibiaxial residual stress profiles measured by hole drilling. The Journal of Strain Analysis for Engineering Design. 2017 Apr 1;52(3):137-151. doi: 10.1177/0309324717696400

Bibtex

@article{f99fc0ec42d84b74accae495eb17ec3c,
title = "Artificial neural network for correction of effects of plasticity in equibiaxial residual stress profiles measured by hole drilling",
abstract = "The hole drilling method is a widely known technique for the determination of non-uniform residual stresses in metallic structures by measuring strain relaxations at the material surface caused through the stress redistribution during drilling of the hole. The integral method is a popular procedure for solving the inverse problem of determining the residual stresses from the measured surface strain. It assumes that the residual stress can be approximated by step-wise constant values, and the material behaves elastically so that the superposition principle can be applied. Required calibration data are obtained from finite element simulations, assuming linear elastic material behavior. That limits the method to the measurement of residual stresses well below the yield strength. There is a lack of research regarding effects caused by residual stresses approaching the yield strength and high through-thickness stress gradients as well as the correction of the resulting errors. However, such high residual stresses are often introduced in various materials by processes such as laser shock peening, for example, to obtain life extension of safety relevant components. The aim of this work is to investigate the limitations of the hole drilling method related to the effects of plasticity and to develop an applicable and efficient method for stress correction, capable of covering a wide range of stress levels. For this reason, an axisymmetric model was used for simulating the hole drilling process in ABAQUS involving plasticity. Afterward, the integral method was applied to the relaxation strain data for determining the equibiaxial stress field. An artificial neural network has been used for solving the inverse problem of stress profile correction. Finally, AA2024-T3 specimens were laser peened and the measured stress fields were corrected by means of the trained network. To quantify the stress overestimation in the hole drilling measurement, an error evaluation has been conducted.",
keywords = "Engineering, artificial neural network, effect of plasticity, finite element analysis, hole drilling, inverse solution, Residual stress",
author = "Sergey Chupakhin and Nikolai Kashaev and Benjamin Klusemann and Norbert Huber",
year = "2017",
month = apr,
day = "1",
doi = "10.1177/0309324717696400",
language = "English",
volume = "52",
pages = "137--151",
journal = "The Journal of Strain Analysis for Engineering Design",
issn = "0309-3247",
publisher = "SAGE Publications Inc.",
number = "3",

}

RIS

TY - JOUR

T1 - Artificial neural network for correction of effects of plasticity in equibiaxial residual stress profiles measured by hole drilling

AU - Chupakhin, Sergey

AU - Kashaev, Nikolai

AU - Klusemann, Benjamin

AU - Huber, Norbert

PY - 2017/4/1

Y1 - 2017/4/1

N2 - The hole drilling method is a widely known technique for the determination of non-uniform residual stresses in metallic structures by measuring strain relaxations at the material surface caused through the stress redistribution during drilling of the hole. The integral method is a popular procedure for solving the inverse problem of determining the residual stresses from the measured surface strain. It assumes that the residual stress can be approximated by step-wise constant values, and the material behaves elastically so that the superposition principle can be applied. Required calibration data are obtained from finite element simulations, assuming linear elastic material behavior. That limits the method to the measurement of residual stresses well below the yield strength. There is a lack of research regarding effects caused by residual stresses approaching the yield strength and high through-thickness stress gradients as well as the correction of the resulting errors. However, such high residual stresses are often introduced in various materials by processes such as laser shock peening, for example, to obtain life extension of safety relevant components. The aim of this work is to investigate the limitations of the hole drilling method related to the effects of plasticity and to develop an applicable and efficient method for stress correction, capable of covering a wide range of stress levels. For this reason, an axisymmetric model was used for simulating the hole drilling process in ABAQUS involving plasticity. Afterward, the integral method was applied to the relaxation strain data for determining the equibiaxial stress field. An artificial neural network has been used for solving the inverse problem of stress profile correction. Finally, AA2024-T3 specimens were laser peened and the measured stress fields were corrected by means of the trained network. To quantify the stress overestimation in the hole drilling measurement, an error evaluation has been conducted.

AB - The hole drilling method is a widely known technique for the determination of non-uniform residual stresses in metallic structures by measuring strain relaxations at the material surface caused through the stress redistribution during drilling of the hole. The integral method is a popular procedure for solving the inverse problem of determining the residual stresses from the measured surface strain. It assumes that the residual stress can be approximated by step-wise constant values, and the material behaves elastically so that the superposition principle can be applied. Required calibration data are obtained from finite element simulations, assuming linear elastic material behavior. That limits the method to the measurement of residual stresses well below the yield strength. There is a lack of research regarding effects caused by residual stresses approaching the yield strength and high through-thickness stress gradients as well as the correction of the resulting errors. However, such high residual stresses are often introduced in various materials by processes such as laser shock peening, for example, to obtain life extension of safety relevant components. The aim of this work is to investigate the limitations of the hole drilling method related to the effects of plasticity and to develop an applicable and efficient method for stress correction, capable of covering a wide range of stress levels. For this reason, an axisymmetric model was used for simulating the hole drilling process in ABAQUS involving plasticity. Afterward, the integral method was applied to the relaxation strain data for determining the equibiaxial stress field. An artificial neural network has been used for solving the inverse problem of stress profile correction. Finally, AA2024-T3 specimens were laser peened and the measured stress fields were corrected by means of the trained network. To quantify the stress overestimation in the hole drilling measurement, an error evaluation has been conducted.

KW - Engineering

KW - artificial neural network

KW - effect of plasticity

KW - finite element analysis

KW - hole drilling

KW - inverse solution

KW - Residual stress

UR - http://www.scopus.com/inward/record.url?scp=85016241618&partnerID=8YFLogxK

U2 - 10.1177/0309324717696400

DO - 10.1177/0309324717696400

M3 - Journal articles

AN - SCOPUS:85016241618

VL - 52

SP - 137

EP - 151

JO - The Journal of Strain Analysis for Engineering Design

JF - The Journal of Strain Analysis for Engineering Design

SN - 0309-3247

IS - 3

ER -

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