Residual stress mapping with multiple slitting measurements

Mitchell D. Olson; Michael R. Hill; Jeremy S. Robinson; Adrian T. Dewald; Victor Sloan

doi:10.1007/978-3-319-21765-9_39

Residual stress mapping with multiple slitting measurements

Mitchell D. Olson, Michael R. Hill, Jeremy S. Robinson, Adrian T. Dewald, Victor Sloan

School of Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This paper describes the use of slitting to form a two-dimensional spatial map of one component of residual stress in the plane of a two-dimensional body. Slitting is a residual stress measurement technique that incrementally cuts a thin slit along a plane across a body, while measuring strain at a remote location as a function of slit depth. Data reduction, based on elastic deformation, provides the residual stress component normal to the plane as a function of position along the slit depth. While a single slitting measurement provides residual stress along a single plane, the new work postulates that multiple measurements on adjacent planes can form a two-dimensional spatial map of residual stress. The paper uses numerical simulations to estimate the quality of a slitting measurement, relative to the proximity of a given measurement plane to a free surface, whether that surface is the edge of the original part or a free surface created by a prior measurement. The results of the numerical simulation lead to a recommended measurement design for mapping residual stress. Finally, the numerical work and recommended measurement strategy are validated with physical experiments using thin aluminum slices containing residual stress induced by quenching. The physical experiments show that two-dimensional residual stress mapping with slitting has precision on the order of 10 MPa.

Original language	English
Title of host publication	Residual Stress, Thermomechanics
Editors	Gary Schajer, Sven Bossuyt, Alberto Carpinteri
Publisher	Springer New York LLC
Pages	319-330
Number of pages	12
ISBN (Print)	9783319217642
DOIs	https://doi.org/10.1007/978-3-319-21765-9_39
Publication status	Published - 2016
Event	SEM Annual Conference and Exposition on Experimental and Applied Mechanics, 2015 - Costa Mesa, United States Duration: 8 Jun 2015 → 11 Jun 2015

Publication series

Name	Conference Proceedings of the Society for Experimental Mechanics Series
Volume	9
ISSN (Print)	2191-5644
ISSN (Electronic)	2191-5652

Conference

Conference	SEM Annual Conference and Exposition on Experimental and Applied Mechanics, 2015
Country/Territory	United States
City	Costa Mesa
Period	8/06/15 → 11/06/15

Keywords

Crack compliance
Mapping
Measurement design
Residual stress
Slitting
Uncertainty

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10.1007/978-3-319-21765-9_39

Cite this

Olson, M. D., Hill, M. R., Robinson, J. S., Dewald, A. T., & Sloan, V. (2016). Residual stress mapping with multiple slitting measurements. In G. Schajer, S. Bossuyt, & A. Carpinteri (Eds.), Residual Stress, Thermomechanics (pp. 319-330). (Conference Proceedings of the Society for Experimental Mechanics Series; Vol. 9). Springer New York LLC. https://doi.org/10.1007/978-3-319-21765-9_39

@inproceedings{cd7360dd3c934479bb9e3f383c4d7dd6,

title = "Residual stress mapping with multiple slitting measurements",

abstract = "This paper describes the use of slitting to form a two-dimensional spatial map of one component of residual stress in the plane of a two-dimensional body. Slitting is a residual stress measurement technique that incrementally cuts a thin slit along a plane across a body, while measuring strain at a remote location as a function of slit depth. Data reduction, based on elastic deformation, provides the residual stress component normal to the plane as a function of position along the slit depth. While a single slitting measurement provides residual stress along a single plane, the new work postulates that multiple measurements on adjacent planes can form a two-dimensional spatial map of residual stress. The paper uses numerical simulations to estimate the quality of a slitting measurement, relative to the proximity of a given measurement plane to a free surface, whether that surface is the edge of the original part or a free surface created by a prior measurement. The results of the numerical simulation lead to a recommended measurement design for mapping residual stress. Finally, the numerical work and recommended measurement strategy are validated with physical experiments using thin aluminum slices containing residual stress induced by quenching. The physical experiments show that two-dimensional residual stress mapping with slitting has precision on the order of 10 MPa.",

keywords = "Crack compliance, Mapping, Measurement design, Residual stress, Slitting, Uncertainty",

author = "Olson, {Mitchell D.} and Hill, {Michael R.} and Robinson, {Jeremy S.} and Dewald, {Adrian T.} and Victor Sloan",

note = "Publisher Copyright: {\textcopyright} The Society for Experimental Mechanics, Inc. 2016.; SEM Annual Conference and Exposition on Experimental and Applied Mechanics, 2015 ; Conference date: 08-06-2015 Through 11-06-2015",

year = "2016",

doi = "10.1007/978-3-319-21765-9_39",

language = "English",

isbn = "9783319217642",

series = "Conference Proceedings of the Society for Experimental Mechanics Series",

publisher = "Springer New York LLC",

pages = "319--330",

editor = "Gary Schajer and Sven Bossuyt and Alberto Carpinteri",

booktitle = "Residual Stress, Thermomechanics",

}

Olson, MD, Hill, MR, Robinson, JS, Dewald, AT & Sloan, V 2016, Residual stress mapping with multiple slitting measurements. in G Schajer, S Bossuyt & A Carpinteri (eds), Residual Stress, Thermomechanics. Conference Proceedings of the Society for Experimental Mechanics Series, vol. 9, Springer New York LLC, pp. 319-330, SEM Annual Conference and Exposition on Experimental and Applied Mechanics, 2015, Costa Mesa, United States, 8/06/15. https://doi.org/10.1007/978-3-319-21765-9_39

Residual stress mapping with multiple slitting measurements. / Olson, Mitchell D.; Hill, Michael R.; Robinson, Jeremy S. et al.
Residual Stress, Thermomechanics. ed. / Gary Schajer; Sven Bossuyt; Alberto Carpinteri. Springer New York LLC, 2016. p. 319-330 (Conference Proceedings of the Society for Experimental Mechanics Series; Vol. 9).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Residual stress mapping with multiple slitting measurements

AU - Olson, Mitchell D.

AU - Hill, Michael R.

AU - Robinson, Jeremy S.

AU - Dewald, Adrian T.

AU - Sloan, Victor

N1 - Publisher Copyright: © The Society for Experimental Mechanics, Inc. 2016.

PY - 2016

Y1 - 2016

N2 - This paper describes the use of slitting to form a two-dimensional spatial map of one component of residual stress in the plane of a two-dimensional body. Slitting is a residual stress measurement technique that incrementally cuts a thin slit along a plane across a body, while measuring strain at a remote location as a function of slit depth. Data reduction, based on elastic deformation, provides the residual stress component normal to the plane as a function of position along the slit depth. While a single slitting measurement provides residual stress along a single plane, the new work postulates that multiple measurements on adjacent planes can form a two-dimensional spatial map of residual stress. The paper uses numerical simulations to estimate the quality of a slitting measurement, relative to the proximity of a given measurement plane to a free surface, whether that surface is the edge of the original part or a free surface created by a prior measurement. The results of the numerical simulation lead to a recommended measurement design for mapping residual stress. Finally, the numerical work and recommended measurement strategy are validated with physical experiments using thin aluminum slices containing residual stress induced by quenching. The physical experiments show that two-dimensional residual stress mapping with slitting has precision on the order of 10 MPa.

AB - This paper describes the use of slitting to form a two-dimensional spatial map of one component of residual stress in the plane of a two-dimensional body. Slitting is a residual stress measurement technique that incrementally cuts a thin slit along a plane across a body, while measuring strain at a remote location as a function of slit depth. Data reduction, based on elastic deformation, provides the residual stress component normal to the plane as a function of position along the slit depth. While a single slitting measurement provides residual stress along a single plane, the new work postulates that multiple measurements on adjacent planes can form a two-dimensional spatial map of residual stress. The paper uses numerical simulations to estimate the quality of a slitting measurement, relative to the proximity of a given measurement plane to a free surface, whether that surface is the edge of the original part or a free surface created by a prior measurement. The results of the numerical simulation lead to a recommended measurement design for mapping residual stress. Finally, the numerical work and recommended measurement strategy are validated with physical experiments using thin aluminum slices containing residual stress induced by quenching. The physical experiments show that two-dimensional residual stress mapping with slitting has precision on the order of 10 MPa.

KW - Crack compliance

KW - Mapping

KW - Measurement design

KW - Residual stress

KW - Slitting

KW - Uncertainty

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U2 - 10.1007/978-3-319-21765-9_39

DO - 10.1007/978-3-319-21765-9_39

M3 - Conference contribution

AN - SCOPUS:84952837705

SN - 9783319217642

T3 - Conference Proceedings of the Society for Experimental Mechanics Series

SP - 319

EP - 330

BT - Residual Stress, Thermomechanics

A2 - Schajer, Gary

A2 - Bossuyt, Sven

A2 - Carpinteri, Alberto

PB - Springer New York LLC

T2 - SEM Annual Conference and Exposition on Experimental and Applied Mechanics, 2015

Y2 - 8 June 2015 through 11 June 2015

ER -

Residual stress mapping with multiple slitting measurements

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Keywords

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