Strain mapping with high spatial resolution across a wide observation range by digital image correlation on plastic replicas

Shigeru Hamada; Tomoya Fujisawa; Motomichi Koyama; Norimitsu Koga; Nobuo Nakada; Toshihiro Tsuchiyama; Masaharu Ueda; Hiroshi Noguchi

doi:10.1016/j.matchar.2014.10.010

Strain mapping with high spatial resolution across a wide observation range by digital image correlation on plastic replicas

Shigeru Hamada, Tomoya Fujisawa, Motomichi Koyama, Norimitsu Koga, Nobuo Nakada, Toshihiro Tsuchiyama, Masaharu Ueda, Hiroshi Noguchi

IMR - Materials Design Division

Research output: Contribution to journal › Article › peer-review

24 Citations (Scopus)

Abstract

In this study, a one-step replica method was applied at 0, 3, and 7% plastic strains in pearlitic steel. A microstructural digital image correlation was then performed on acetyl cellulose plastic replica surface images to obtain high spatial resolution strain maps across a wide observation range. In order to validate the digital image correlation on the replica, digital image correlation was also conducted on the chemically etched sample surface. Although the digital image correlation results were affected by replica shrinkage, its effect could be corrected by a simple experimental equation relating the shrinkage ratio dependence on the solvent immersion time. Reproducible strain maps were obtained for the plastic replica for any macroscopic strain, strain components, or degree of microscopic strain localization.

Original language	English
Pages (from-to)	140-146
Number of pages	7
Journal	Materials Characterization
Volume	98
DOIs	https://doi.org/10.1016/j.matchar.2014.10.010
Publication status	Published - 2014 Dec

Keywords

Crack initiation
Digital image correlation
Fatigue
Replica method

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10.1016/j.matchar.2014.10.010

Cite this

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abstract = "In this study, a one-step replica method was applied at 0, 3, and 7% plastic strains in pearlitic steel. A microstructural digital image correlation was then performed on acetyl cellulose plastic replica surface images to obtain high spatial resolution strain maps across a wide observation range. In order to validate the digital image correlation on the replica, digital image correlation was also conducted on the chemically etched sample surface. Although the digital image correlation results were affected by replica shrinkage, its effect could be corrected by a simple experimental equation relating the shrinkage ratio dependence on the solvent immersion time. Reproducible strain maps were obtained for the plastic replica for any macroscopic strain, strain components, or degree of microscopic strain localization.",

keywords = "Crack initiation, Digital image correlation, Fatigue, Replica method",

author = "Shigeru Hamada and Tomoya Fujisawa and Motomichi Koyama and Norimitsu Koga and Nobuo Nakada and Toshihiro Tsuchiyama and Masaharu Ueda and Hiroshi Noguchi",

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AU - Hamada, Shigeru

AU - Fujisawa, Tomoya

AU - Koyama, Motomichi

AU - Koga, Norimitsu

AU - Nakada, Nobuo

AU - Tsuchiyama, Toshihiro

AU - Ueda, Masaharu

AU - Noguchi, Hiroshi

PY - 2014/12

Y1 - 2014/12

N2 - In this study, a one-step replica method was applied at 0, 3, and 7% plastic strains in pearlitic steel. A microstructural digital image correlation was then performed on acetyl cellulose plastic replica surface images to obtain high spatial resolution strain maps across a wide observation range. In order to validate the digital image correlation on the replica, digital image correlation was also conducted on the chemically etched sample surface. Although the digital image correlation results were affected by replica shrinkage, its effect could be corrected by a simple experimental equation relating the shrinkage ratio dependence on the solvent immersion time. Reproducible strain maps were obtained for the plastic replica for any macroscopic strain, strain components, or degree of microscopic strain localization.

AB - In this study, a one-step replica method was applied at 0, 3, and 7% plastic strains in pearlitic steel. A microstructural digital image correlation was then performed on acetyl cellulose plastic replica surface images to obtain high spatial resolution strain maps across a wide observation range. In order to validate the digital image correlation on the replica, digital image correlation was also conducted on the chemically etched sample surface. Although the digital image correlation results were affected by replica shrinkage, its effect could be corrected by a simple experimental equation relating the shrinkage ratio dependence on the solvent immersion time. Reproducible strain maps were obtained for the plastic replica for any macroscopic strain, strain components, or degree of microscopic strain localization.

KW - Crack initiation

KW - Digital image correlation

KW - Fatigue

KW - Replica method

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Strain mapping with high spatial resolution across a wide observation range by digital image correlation on plastic replicas

Abstract

Keywords

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