A three-dimensional contact element based on the moving friction cone approach and the elliptical Coulomb law

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OriginalspracheEnglisch
Titel des SammelwerksComputational Plasticity
UntertitelFundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII
Seiten827-830
Seitenumfang4
PublikationsstatusVeröffentlicht - 2005
Veranstaltung8th International Conference on Computational Plasticity: Fundamentals and Applications, COMPLAS VIII - Barcelona, Spanien
Dauer: 5 Sept. 20057 Sept. 2005

Publikationsreihe

NameComputational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII
NummerPART 2

Abstract

The paper presents elliptical Coulomb law where the friction surface is defined with two principal friction coefficients and corresponding direction, what enables description of surfaces showing biaxial frictional response. The Moving Friction Cone formulation is based on the contact constraint described using a single gap vector that enables significantly simpler, shorter and faster element code.

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A three-dimensional contact element based on the moving friction cone approach and the elliptical Coulomb law. / Krstulović-Opara, Lovre; Wriggers, Peter.
Computational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII. 2005. S. 827-830 (Computational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII; Nr. PART 2).

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

Krstulović-Opara, L & Wriggers, P 2005, A three-dimensional contact element based on the moving friction cone approach and the elliptical Coulomb law. in Computational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII. Computational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII, Nr. PART 2, S. 827-830, 8th International Conference on Computational Plasticity: Fundamentals and Applications, COMPLAS VIII, Barcelona, Spanien, 5 Sept. 2005.
Krstulović-Opara, L., & Wriggers, P. (2005). A three-dimensional contact element based on the moving friction cone approach and the elliptical Coulomb law. In Computational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII (S. 827-830). (Computational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII; Nr. PART 2).
Krstulović-Opara L, Wriggers P. A three-dimensional contact element based on the moving friction cone approach and the elliptical Coulomb law. in Computational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII. 2005. S. 827-830. (Computational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII; PART 2).
Krstulović-Opara, Lovre ; Wriggers, Peter. / A three-dimensional contact element based on the moving friction cone approach and the elliptical Coulomb law. Computational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII. 2005. S. 827-830 (Computational Plasticity: Fundamentals and Applications - Proceedings of the 8th International Conference on Computational Plasticity, COMPLAS VIII; PART 2).
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abstract = "The paper presents elliptical Coulomb law where the friction surface is defined with two principal friction coefficients and corresponding direction, what enables description of surfaces showing biaxial frictional response. The Moving Friction Cone formulation is based on the contact constraint described using a single gap vector that enables significantly simpler, shorter and faster element code.",
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