Insights into Plastic Localization by Crystallographic Slip from Emerging Experimental and Numerical Approaches

J. C. Stinville; M. A. Charpagne; Christoph Robert Eduard Maass; H. Proudhon; W. Ludwig; P. G. Callahan; F. Wang; I. J. Beyerlein; M. P. Echlin; T. M. Pollock

doi:10.1146/annurev-matsci-080921-102621

Insights into Plastic Localization by Crystallographic Slip from Emerging Experimental and Numerical Approaches

J. C. Stinville, M. A. Charpagne, Christoph Robert Eduard Maass, H. Proudhon, W. Ludwig, P. G. Callahan, F. Wang, I. J. Beyerlein, M. P. Echlin, T. M. Pollock

Research output: Contribution to journal › Review article › peer-review

Abstract

Advanced experimental and numerical approaches are being developed to capture the localization of plasticity at the nanometer scale as a function of the multiscale and heterogeneous microstructure present in metallic materials. These innovative approaches promise new avenues to understand microstructural effects on mechanical properties, accelerate alloy design, and enable more accurate mechanical property prediction. This article provides an overview of emerging approaches with a focus on the localization of plasticity by crystallographic slip. New insights into the mechanisms and mechanics of strain localization are addressed. The consequences of the localization of plasticity by deformation slip for mechanical properties of metallic materials are also detailed.

Original language	English (US)
Pages (from-to)	275-317
Number of pages	43
Journal	Annual Review of Materials Research
Volume	53
DOIs	https://doi.org/10.1146/annurev-matsci-080921-102621
State	Published - Jul 3 2023

Keywords

experimental and numerical techniques
mechanical properties
metallic materials
plasticity
slip localization

ASJC Scopus subject areas

General Materials Science

Online availability

10.1146/annurev-matsci-080921-102621

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Stinville, J. C., Charpagne, M. A., Maass, C. R. E., Proudhon, H., Ludwig, W., Callahan, P. G., Wang, F., Beyerlein, I. J., Echlin, M. P., & Pollock, T. M. (2023). Insights into Plastic Localization by Crystallographic Slip from Emerging Experimental and Numerical Approaches. Annual Review of Materials Research, 53, 275-317. https://doi.org/10.1146/annurev-matsci-080921-102621

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keywords = "experimental and numerical techniques, mechanical properties, metallic materials, plasticity, slip localization",

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AU - Stinville, J. C.

AU - Charpagne, M. A.

AU - Maass, Christoph Robert Eduard

AU - Proudhon, H.

AU - Ludwig, W.

AU - Callahan, P. G.

AU - Wang, F.

AU - Beyerlein, I. J.

AU - Echlin, M. P.

AU - Pollock, T. M.

PY - 2023/7/3

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AB - Advanced experimental and numerical approaches are being developed to capture the localization of plasticity at the nanometer scale as a function of the multiscale and heterogeneous microstructure present in metallic materials. These innovative approaches promise new avenues to understand microstructural effects on mechanical properties, accelerate alloy design, and enable more accurate mechanical property prediction. This article provides an overview of emerging approaches with a focus on the localization of plasticity by crystallographic slip. New insights into the mechanisms and mechanics of strain localization are addressed. The consequences of the localization of plasticity by deformation slip for mechanical properties of metallic materials are also detailed.

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KW - mechanical properties

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Insights into Plastic Localization by Crystallographic Slip from Emerging Experimental and Numerical Approaches

Abstract

Keywords

ASJC Scopus subject areas

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