Stiffness and strength of hierarchical polycrystalline materials with imperfect interfaces

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OriginalspracheEnglisch
Titel des SammelwerksComputational Plasticity XI
Untertitelfundamentals and applications ; volumen containing the full length papers accepted for presentation at the "XI International Conference on Computational Plasticity. Fundamentals and Applications", Barcelona, Spain, 07 - 09 September 2011
Herausgeber/-innenE. Oñate, D.R.J. Owen, D. Peric, B. Suárez
Seiten1082-1091
Seitenumfang10
AuflageFirst edition
PublikationsstatusVeröffentlicht - Dez. 2011
Veranstaltung11th International Conference on Computational Plasticity, COMPLAS XI - Barcelona, Spanien
Dauer: 7 Sept. 20119 Sept. 2011

Abstract

In this paper, considering a cohesive zone model (CZM) for finite thickness interfaces recently proposed by the authors, the stiffness of polycrystalline materials with imperfect interfaces is characterized. Generalized expressions for the Voigt and Reuss estimates of the effective elastic modulus of the composite are derived to interpret the numerical results. Considering a polycrystalline material with a hierarchical microstructure, the interaction between interfaces at the different hierarchical levels is numerically investigated. A condition for scale separation, which suggests how to design the optimal microstructure to maximize the material tensile strength is determined. An original interpretation of this phenomenon based on the concept of flaw tolerance is finally proposed.

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Stiffness and strength of hierarchical polycrystalline materials with imperfect interfaces. / Paggi, Marco; Wriggers, Peter.
Computational Plasticity XI: fundamentals and applications ; volumen containing the full length papers accepted for presentation at the "XI International Conference on Computational Plasticity. Fundamentals and Applications", Barcelona, Spain, 07 - 09 September 2011. Hrsg. / E. Oñate; D.R.J. Owen; D. Peric; B. Suárez. First edition. Aufl. 2011. S. 1082-1091.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Paggi, M & Wriggers, P 2011, Stiffness and strength of hierarchical polycrystalline materials with imperfect interfaces. in E Oñate, DRJ Owen, D Peric & B Suárez (Hrsg.), Computational Plasticity XI: fundamentals and applications ; volumen containing the full length papers accepted for presentation at the "XI International Conference on Computational Plasticity. Fundamentals and Applications", Barcelona, Spain, 07 - 09 September 2011. First edition Aufl., S. 1082-1091, 11th International Conference on Computational Plasticity, COMPLAS XI, Barcelona, Spanien, 7 Sept. 2011. <http://hdl.handle.net/2117/184143>
Paggi, M., & Wriggers, P. (2011). Stiffness and strength of hierarchical polycrystalline materials with imperfect interfaces. In E. Oñate, D. R. J. Owen, D. Peric, & B. Suárez (Hrsg.), Computational Plasticity XI: fundamentals and applications ; volumen containing the full length papers accepted for presentation at the "XI International Conference on Computational Plasticity. Fundamentals and Applications", Barcelona, Spain, 07 - 09 September 2011 (First edition Aufl., S. 1082-1091) http://hdl.handle.net/2117/184143
Paggi M, Wriggers P. Stiffness and strength of hierarchical polycrystalline materials with imperfect interfaces. in Oñate E, Owen DRJ, Peric D, Suárez B, Hrsg., Computational Plasticity XI: fundamentals and applications ; volumen containing the full length papers accepted for presentation at the "XI International Conference on Computational Plasticity. Fundamentals and Applications", Barcelona, Spain, 07 - 09 September 2011. First edition Aufl. 2011. S. 1082-1091
Paggi, Marco ; Wriggers, Peter. / Stiffness and strength of hierarchical polycrystalline materials with imperfect interfaces. Computational Plasticity XI: fundamentals and applications ; volumen containing the full length papers accepted for presentation at the "XI International Conference on Computational Plasticity. Fundamentals and Applications", Barcelona, Spain, 07 - 09 September 2011. Hrsg. / E. Oñate ; D.R.J. Owen ; D. Peric ; B. Suárez. First edition. Aufl. 2011. S. 1082-1091
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title = "Stiffness and strength of hierarchical polycrystalline materials with imperfect interfaces",
abstract = "In this paper, considering a cohesive zone model (CZM) for finite thickness interfaces recently proposed by the authors, the stiffness of polycrystalline materials with imperfect interfaces is characterized. Generalized expressions for the Voigt and Reuss estimates of the effective elastic modulus of the composite are derived to interpret the numerical results. Considering a polycrystalline material with a hierarchical microstructure, the interaction between interfaces at the different hierarchical levels is numerically investigated. A condition for scale separation, which suggests how to design the optimal microstructure to maximize the material tensile strength is determined. An original interpretation of this phenomenon based on the concept of flaw tolerance is finally proposed.",
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AU - Paggi, Marco

AU - Wriggers, Peter

PY - 2011/12

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N2 - In this paper, considering a cohesive zone model (CZM) for finite thickness interfaces recently proposed by the authors, the stiffness of polycrystalline materials with imperfect interfaces is characterized. Generalized expressions for the Voigt and Reuss estimates of the effective elastic modulus of the composite are derived to interpret the numerical results. Considering a polycrystalline material with a hierarchical microstructure, the interaction between interfaces at the different hierarchical levels is numerically investigated. A condition for scale separation, which suggests how to design the optimal microstructure to maximize the material tensile strength is determined. An original interpretation of this phenomenon based on the concept of flaw tolerance is finally proposed.

AB - In this paper, considering a cohesive zone model (CZM) for finite thickness interfaces recently proposed by the authors, the stiffness of polycrystalline materials with imperfect interfaces is characterized. Generalized expressions for the Voigt and Reuss estimates of the effective elastic modulus of the composite are derived to interpret the numerical results. Considering a polycrystalline material with a hierarchical microstructure, the interaction between interfaces at the different hierarchical levels is numerically investigated. A condition for scale separation, which suggests how to design the optimal microstructure to maximize the material tensile strength is determined. An original interpretation of this phenomenon based on the concept of flaw tolerance is finally proposed.

KW - Cohesive zone models

KW - Finite element method

KW - Hierarchical materials

KW - Imperfect interfaces

KW - Polycrystalline materials

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M3 - Conference contribution

SN - 9788489925731

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BT - Computational Plasticity XI

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A2 - Owen, D.R.J.

A2 - Peric, D.

A2 - Suárez, B.

T2 - 11th International Conference on Computational Plasticity, COMPLAS XI

Y2 - 7 September 2011 through 9 September 2011

ER -

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