A viscosity regularized plasticity model for ceramics

E. C. Simons; J. Weerheijm; L. J. Sluys

doi:10.1016/j.euromechsol.2018.05.009

A viscosity regularized plasticity model for ceramics

E. C. Simons^*, J. Weerheijm, L. J. Sluys

^*Corresponding author for this work

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

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Abstract

Plasticity models are frequently used to describe ceramic materials. Well established and often used ceramic models are those by Johnson and Holmquist. These are softening plasticity models for which mesh dependency is a well known problem. A viscosity or rate dependency can be added to the material model to provide regularization and solve the mesh dependency problems. For the Johnson-Holmquist models a viscosity is proposed to work on the hydrostatic tensile strength. A consistency visco-plastic formulation is used. For the Johnson-Holmquist-2 model it is demonstrated that the proposed viscosity indeed removes the mesh dependency problems. This is shown for both quasi-static and dynamic loading. In addition it is shown that the proposed viscosity can predict an experimentally measured rate dependent spall strength of alumina ceramic, while the original model fails to do so.

Original language	English
Pages (from-to)	310-328
Number of pages	19
Journal	European Journal of Mechanics, A/Solids
Volume	72
DOIs	https://doi.org/10.1016/j.euromechsol.2018.05.009
Publication status	Published - 1 Nov 2018

Keywords

Ceramic
Dynamic
Johnson-Holmquist
Mesh-dependency
Quasi-static
Viscosity

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10.1016/j.euromechsol.2018.05.009

Manuscript_ECSimonsAccepted author manuscript, 3.85 MBLicence: CC BY-NC-ND

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title = "A viscosity regularized plasticity model for ceramics",

abstract = "Plasticity models are frequently used to describe ceramic materials. Well established and often used ceramic models are those by Johnson and Holmquist. These are softening plasticity models for which mesh dependency is a well known problem. A viscosity or rate dependency can be added to the material model to provide regularization and solve the mesh dependency problems. For the Johnson-Holmquist models a viscosity is proposed to work on the hydrostatic tensile strength. A consistency visco-plastic formulation is used. For the Johnson-Holmquist-2 model it is demonstrated that the proposed viscosity indeed removes the mesh dependency problems. This is shown for both quasi-static and dynamic loading. In addition it is shown that the proposed viscosity can predict an experimentally measured rate dependent spall strength of alumina ceramic, while the original model fails to do so.",

keywords = "Ceramic, Dynamic, Johnson-Holmquist, Mesh-dependency, Quasi-static, Viscosity",

author = "Simons, {E. C.} and J. Weerheijm and Sluys, {L. J.}",

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T1 - A viscosity regularized plasticity model for ceramics

AU - Simons, E. C.

AU - Weerheijm, J.

AU - Sluys, L. J.

PY - 2018/11/1

Y1 - 2018/11/1

N2 - Plasticity models are frequently used to describe ceramic materials. Well established and often used ceramic models are those by Johnson and Holmquist. These are softening plasticity models for which mesh dependency is a well known problem. A viscosity or rate dependency can be added to the material model to provide regularization and solve the mesh dependency problems. For the Johnson-Holmquist models a viscosity is proposed to work on the hydrostatic tensile strength. A consistency visco-plastic formulation is used. For the Johnson-Holmquist-2 model it is demonstrated that the proposed viscosity indeed removes the mesh dependency problems. This is shown for both quasi-static and dynamic loading. In addition it is shown that the proposed viscosity can predict an experimentally measured rate dependent spall strength of alumina ceramic, while the original model fails to do so.

AB - Plasticity models are frequently used to describe ceramic materials. Well established and often used ceramic models are those by Johnson and Holmquist. These are softening plasticity models for which mesh dependency is a well known problem. A viscosity or rate dependency can be added to the material model to provide regularization and solve the mesh dependency problems. For the Johnson-Holmquist models a viscosity is proposed to work on the hydrostatic tensile strength. A consistency visco-plastic formulation is used. For the Johnson-Holmquist-2 model it is demonstrated that the proposed viscosity indeed removes the mesh dependency problems. This is shown for both quasi-static and dynamic loading. In addition it is shown that the proposed viscosity can predict an experimentally measured rate dependent spall strength of alumina ceramic, while the original model fails to do so.

KW - Ceramic

KW - Dynamic

KW - Johnson-Holmquist

KW - Mesh-dependency

KW - Quasi-static

KW - Viscosity

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JO - European Journal of Mechanics, A/Solids

JF - European Journal of Mechanics, A/Solids

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A viscosity regularized plasticity model for ceramics

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Keywords

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