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İlker Temizer
Researcher at Bilkent University
Publications - 60
Citations - 1782
İlker Temizer is an academic researcher from Bilkent University. The author has contributed to research in topics: Homogenization (chemistry) & Isogeometric analysis. The author has an hindex of 21, co-authored 53 publications receiving 1584 citations. Previous affiliations of İlker Temizer include University of California, Berkeley & Leibniz University of Hanover.
Papers
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Contact treatment in isogeometric analysis with NURBS
TL;DR: In this article, a knot-to-surface (KTS) algorithm is developed to treat the contact constraints with NURBS contact surface discretizations, which is a viable technology for contact problems and offers potential accuracy as well as convergence improvements over C 0 -continuous finite elements.
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A large deformation frictional contact formulation using NURBS‐based isogeometric analysis
TL;DR: In this article, a mortar-based approach is presented to treat the contact constraints, whereby the discretization of the continuum is performed with arbitrary order NURBS, as well as C0-continuous Lagrange polynomial elements for comparison purposes.
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Three-dimensional mortar-based frictional contact treatment in isogeometric analysis with NURBS
TL;DR: In this paper, a three-dimensional mortar-based frictional contact treatment in isogeometric analysis with NURBS is presented in the finite deformation regime, where the contact integrals are evaluated through a mortar approach where the geometrical and frictional contacts constraints are treated through a projection to control point quantities.
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A numerical method for homogenization in non-linear elasticity
İlker Temizer,Tarek I. Zohdi +1 more
TL;DR: In this paper, the effective constitutive behavior of a heterogeneous material is studied in both linear and non-linear elastic regimes and the concept of a material map is proposed to identify statistically representative volume elements (RVE) for the heterogeneous materials.
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Homogenization in finite thermoelasticity
İlker Temizer,Peter Wriggers +1 more
TL;DR: In this paper, a homogenization framework is developed for the finite thermoelasticity analysis of heterogeneous media, based on appropriate identifications of the macroscopic density, internal energy, entropy and thermal dissipation.