M
Marcus Rüter
Researcher at University of California, Los Angeles
Publications - 32
Citations - 759
Marcus Rüter is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Finite element method & Estimator. The author has an hindex of 12, co-authored 32 publications receiving 704 citations. Previous affiliations of Marcus Rüter include Leibniz University of Hanover & Helsinki University of Technology.
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Journal ArticleDOI
An arbitrary order variationally consistent integration for Galerkin meshfree methods
TL;DR: It is demonstrated that the solution errors of PDEs due to quadrature inaccuracy can be significantly reduced when the variationally inconsistent methods are corrected with the proposed method, and consequently the optimal convergence rate can be either partially or fully restored.
Journal ArticleDOI
The Sandia Fracture Challenge: blind round robin predictions of ductile tearing
Brad L. Boyce,Sharlotte Kramer,H. E. Fang,Theresa Elena Cordova,Michael K. Neilsen,Kristin Dion,Amy Kathleen Kaczmarowski,Erin Karasz,Liang Xue,Andrew J. Gross,Ali Ghahremaninezhad,Krishnaswa Ravi-Chandar,Shih-Po Lin,Sheng Wei Chi,Jiun-Shyan Chen,E. Yreux,Marcus Rüter,Dong Qian,Zhong Zhou,Sagar Bhamare,Devin T. O'Connor,S. Tang,Khalil I. Elkhodary,Jifeng Zhao,Jacob D. Hochhalter,A. R. Cerrone,Anthony R. Ingraffea,Paul A. Wawrzynek,B.J. Carter,John M Emery,M G Veilleux,Pengfei Yang,Yong Gan,Xiong Zhang,Zhen Chen,Zhen Chen,Erdogan Madenci,Bahattin Kilic,Tingting Zhang,E. Fang,P. Liu,Jim Lua,Ken Nahshon,M. Miraglia,J. Cruce,R. DeFrese,E. T. Moyer,Steffen Brinckmann,L. Quinkert,Keunhwan Pack,Meng Luo,Tomasz Wierzbicki +51 more
TL;DR: Sandia National Laboratories, in partnership with US National Science Foundation and Naval Surface Warfare Center Carderock Division, launched a computational challenge in mid-summer, 2012 to predict crack initiation and propagation in a simple but novel geometry fabricated from a common off-the-shelf commercial engineering alloy as mentioned in this paper.
Journal Article
The Sandia Fracture Challenge: blind round robin predictions of ductile tearing
Brad L. Boyce,Sharlotte Kramer,H. E. Fang,Theresa Elena Cordova,Michael K. Neilsen,Kristin Dion,Amy Kathleen Kaczmarowski,Erin Karasz,Liang Xue,Andrew J. Gross,Ali Ghahremaninezhad,Krishnaswa Ravi-Chandar,Shih-Po Lin,Sheng Wei Chi,Jiun-Shyan Chen,E. Yreux,Marcus Rüter,Dong Qian,Zhong Zhou,Sagar Bhamare,Devin T. O'Connor,S. Tang,Khalil I. Elkhodary,Jifeng Zhao,Jacob D. Hochhalter,A. R. Cerrone,Anthony R. Ingraffea,Paul A. Wawrzynek,B.J. Carter,John M Emery,M G Veilleux,Pengfei Yang,Yong Gan,Xiong Zhang,Zhen Chen,Erdogan Madenci,Bahattin Kilic,Tingting Zhang,E. Fang,P. Liu,Jim Lua,Ken Nahshon,M. Miraglia,J. Cruce,R. DeFrese,E. T. Moyer,Steffen Brinckmann,L. Quinkert,Keunhwan Pack,Meng Luo,Tomasz Wierzbicki +50 more
TL;DR: Sandia National Laboratories, in partnership with US National Science Foundation and Naval Surface Warfare Center Carderock Division, launched a computational challenge in mid-summer, 2012 to predict crack initiation and propagation in a simple but novel geometry fabricated from a common off-the-shelf commercial engineering alloy as mentioned in this paper.
Journal ArticleDOI
Analysis, finite element computation and error estimation in transversely isotropic nearly incompressible finite elasticity
Marcus Rüter,Erwin Stein +1 more
TL;DR: In this paper, the authors present constitutive models for nearly incompressible, transversely isotropic materials in finite hyperelasticity, particularly for reinforced rubber-like materials, which are of essential engineering interest.
Journal ArticleDOI
Goal-oriented a posteriori error estimates in linear elastic fracture mechanics
Marcus Rüter,Erwin Stein +1 more
TL;DR: In this paper, goal-oriented adaptive finite element methods based on the well-established strategy of solving an auxiliary dual problem in order to control the error of a (non)linear functional, here the J-integral, are presented.