Institution
Bauhaus University, Weimar
Education•Weimar, Thüringen, Germany•
About: Bauhaus University, Weimar is a education organization based out in Weimar, Thüringen, Germany. It is known for research contribution in the topics: Finite element method & Isogeometric analysis. The organization has 1421 authors who have published 2998 publications receiving 104454 citations. The organization is also known as: Bauhaus-Universität Weimar & Hochschule für Architektur und Bauwesen.
Topics: Finite element method, Isogeometric analysis, Context (language use), Graphene, Fracture mechanics
Papers published on a yearly basis
Papers
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TL;DR: In this paper, the extended finite element method (XFEM) is used for a discrete crack simulation of concrete using an adaptive crack growth algorithm, and different criteria for predicting the direction of the extension of a cohesive crack are investigated in the context of the XFEM.
225 citations
TL;DR: In this article, the influence of concrete mix parameters on effective elastic properties is studied, and the multigrid method enables efficient computation of very large heterogeneous mesoscale models.
224 citations
TL;DR: In this paper, a phase field model (PFM) is presented for simulating complex crack patterns including crack propagation, branching and coalescence in rock, based on the strain decomposition for the elastic energy, which drives the evolution of the phase field.
224 citations
TL;DR: Blast furnace slag and metakaolin were blended together and the combination activated by sodium hydroxide solution as mentioned in this paper, and the boundary mixtures were set by the activation of the pure slags and pure metakaol powders.
Abstract: Blast furnace slag and metakaolin were blended together and the combination activated by sodium hydroxide solution. The boundary mixtures were set by the activation of the pure slag and pure metakaolin powders. The type and quantity of the reaction products in the alkaline activated blended binders was determined. It is discussed whether both raw materials react separately and are unaffected by each other or if there is a chemical interaction. The discussion bases on extensive investigations with 29Si and 27Al nuclear magnetic resonance spectroscopy compared with X-ray diffraction and thermal analysis (DTA/TG). Additionally, the strength performance will be presented and related to structure, composition and the amount of the reaction products.
222 citations
TL;DR: The methodology extends the recently proposed design methodology for a single flexoelectric material and adopts the multi-phase vector level set (LS) model which easily copes with various numbers of phases, efficiently satisfies multiple constraints and intrinsically avoids overlap or vacuum among different phases.
220 citations
Authors
Showing all 1443 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Timon Rabczuk | 99 | 727 | 35893 |
| Adri C. T. van Duin | 79 | 489 | 26911 |
| Paolo Rosso | 56 | 541 | 12757 |
| Xiaoying Zhuang | 54 | 271 | 10082 |
| Benno Stein | 53 | 340 | 9880 |
| Jin-Wu Jiang | 52 | 175 | 7661 |
| Gordon Wetzstein | 51 | 258 | 9793 |
| Goangseup Zi | 45 | 153 | 8411 |
| Bohayra Mortazavi | 44 | 162 | 5802 |
| Thorsten Hennig-Thurau | 44 | 123 | 17542 |
| Jörg Hoffmann | 40 | 200 | 7785 |
| Martin Potthast | 40 | 190 | 6563 |
| Pedro M. A. Areias | 38 | 107 | 5908 |
| Amir Mosavi | 38 | 432 | 6209 |
| Guido De Roeck | 38 | 274 | 8063 |