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Modeling of microstructural pattern formation in crystal plasticity

Research output: Journal contributionsJournal articlesResearch

Standard

Modeling of microstructural pattern formation in crystal plasticity. / Klusemann, Benjamin.
In: Proceedings in applied mathematics and mechanics, Vol. 16, No. 1, 25.10.2016, p. 361-362.

Research output: Journal contributionsJournal articlesResearch

Harvard

Klusemann, B 2016, 'Modeling of microstructural pattern formation in crystal plasticity', Proceedings in applied mathematics and mechanics, vol. 16, no. 1, pp. 361-362. https://doi.org/10.1002/pamm.201610169

APA

Klusemann, B. (2016). Modeling of microstructural pattern formation in crystal plasticity. Proceedings in applied mathematics and mechanics, 16(1), 361-362. https://doi.org/10.1002/pamm.201610169

Vancouver

Klusemann B. Modeling of microstructural pattern formation in crystal plasticity. Proceedings in applied mathematics and mechanics. 2016 Oct 25;16(1):361-362. doi: 10.1002/pamm.201610169

Bibtex

@article{d1f211907c95405892001de50a37e1a8,
title = "Modeling of microstructural pattern formation in crystal plasticity",
abstract = "The mechanical behavior of most materials is dictated by a present or emergent underlying microstructure which is a direct result of different, even competing physical mechanisms occurring at lower length scales. In this work, energetic microstructure interaction via different non-convex contributions to the free energy in metals is modeled. For this purpose rate dependent gradient extended crystal plasticity models at the glide-system level are formulated. The non-convex energy serves as the driving force for the emergent microstructure. The competition between the kinetics and the relaxation of the free energy is an essential feature of the model. Non-convexity naturally arises in finite-deformation single-slip crystal plasticity and the results of the gradient model for this case are compared with an effective laminate model based on energy relaxation. Similarities as well as essential differences are observed and explained.",
keywords = "Engineering",
author = "Benjamin Klusemann",
note = "Special Issue: Joint 87th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM) and Deutsche Mathematiker-Vereinigung (DMV), Braunschweig 2016; Editors: V. Bach and H. Fassbender",
year = "2016",
month = oct,
day = "25",
doi = "10.1002/pamm.201610169",
language = "English",
volume = "16",
pages = "361--362",
journal = "Proceedings in applied mathematics and mechanics",
issn = "1617-7061",
publisher = "Wiley-VCH Verlag",
number = "1",

}

RIS

TY - JOUR

T1 - Modeling of microstructural pattern formation in crystal plasticity

AU - Klusemann, Benjamin

N1 - Special Issue: Joint 87th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM) and Deutsche Mathematiker-Vereinigung (DMV), Braunschweig 2016; Editors: V. Bach and H. Fassbender

PY - 2016/10/25

Y1 - 2016/10/25

N2 - The mechanical behavior of most materials is dictated by a present or emergent underlying microstructure which is a direct result of different, even competing physical mechanisms occurring at lower length scales. In this work, energetic microstructure interaction via different non-convex contributions to the free energy in metals is modeled. For this purpose rate dependent gradient extended crystal plasticity models at the glide-system level are formulated. The non-convex energy serves as the driving force for the emergent microstructure. The competition between the kinetics and the relaxation of the free energy is an essential feature of the model. Non-convexity naturally arises in finite-deformation single-slip crystal plasticity and the results of the gradient model for this case are compared with an effective laminate model based on energy relaxation. Similarities as well as essential differences are observed and explained.

AB - The mechanical behavior of most materials is dictated by a present or emergent underlying microstructure which is a direct result of different, even competing physical mechanisms occurring at lower length scales. In this work, energetic microstructure interaction via different non-convex contributions to the free energy in metals is modeled. For this purpose rate dependent gradient extended crystal plasticity models at the glide-system level are formulated. The non-convex energy serves as the driving force for the emergent microstructure. The competition between the kinetics and the relaxation of the free energy is an essential feature of the model. Non-convexity naturally arises in finite-deformation single-slip crystal plasticity and the results of the gradient model for this case are compared with an effective laminate model based on energy relaxation. Similarities as well as essential differences are observed and explained.

KW - Engineering

U2 - 10.1002/pamm.201610169

DO - 10.1002/pamm.201610169

M3 - Journal articles

VL - 16

SP - 361

EP - 362

JO - Proceedings in applied mathematics and mechanics

JF - Proceedings in applied mathematics and mechanics

SN - 1617-7061

IS - 1

ER -

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