Fraunhofer Institute for Mechanics of Materials IWM

2017 bis 2015

Khader, I.; Rasche, S.; Lube, T.; Raga, R.; Degenhardt, U.; Kailer, A.; Lifetime prediction of ceramic components - a case study on hybrid rolling contact; Engineering Fracture Mechanics 169 (2017) 292-308 Link

Khader, I.; Renz, A.; Kailer, A.; A wear model for silicon nitride in dry sliding contact against a nickel-base alloy; Wear 376-377/Part A (2017) 352-362 Link

Raga, R.; Khader, I.; Zdeněk, C.; Kailer, A., Experimental and numerical investigation of crack initiation and propagation in silicon nitride ceramic under rolling and cyclic contact; Journal of Physics: Conference Series (JPCS) 843/1 (2017) 012030 1-9 Link

Raga, R.; Damage initiation and evolution in silicon nitride under cyclic and rolling contact; Fraunhofer IWM Forschungsberichte Band 16; Fraunhofer IWM (Hrsg.) Fraunhofer Verlag Stuttgart (2017) 157 Seiten (Dissertation) Link

Othmani, Y.; Böhlke, T.; Lube, T.; Fellmeth, A.; Chlup, Z.; Colonna, F.; Hashibon, A.; Analysis of the effective thermoelastic properties and stress fields in silicon nitride based on EBSD data; Journal of the European Ceramic Society 36/5 (2016) 1109-1125 Link

Raga, R.; Khader, I.; Chlup, Z.; Kailer, A.; Damage initiation and evolution in silicon nitride under non-conforming lubricated hybrid rolling contact; Wear 360-361 (2016) 147–159 Link

Ruck, J.; Othmani, Y.; Lube, T.; Khader, I.; Kailer, A.; Böhlke, T.; Macroscopic damage modeling for silicon nitride; PAMM 15/1 Special Issue: 86th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM); Zavarise, G.; Cinnella, P.; Campiti, M. (Hrsg.); Wiley-VCH Verlag, Weinheim (2015) 147-148 Link

2014 bis 2012

Böhlke, T.; Othmani, Y.; A two-scale weakest link model based on a micromechanical approach; Computational Materials Science 80 (2013) 43-50 Link

Kailer, A.; Die Risiken von Keramiklagern werden in der Regel überschätzt; MM MaschinenMarkt 19 (2013) 70-71 Link

Khader, I.; Kürten, D.; Kailer, A.; Modeling of wear in silicon nitride in rolling-sliding contact; in Proc. of 5th World Tribology Congress WTC 2013; Raparelli, T. (Ed.); Curran Associates, Inc., Red Hook, NY, USA (2013) 3133-3136 Link

Kozák, V.; Chlup, Z.; Crack growth modelling in the silicon nitride ceramics by application of the cohesive zone approach; Key Engineering Materials 592-593 (2013) 193-196 Link

Wehd, C. von der; Lube, T.; Khader, I.; Kailer, A.; Degenhardt, U.; Berroth, K.; Zyklische Ermüdung technischer Keramiken in wässrigen Medien; in Tagungsband Werkstoffprüfung 2013. Fortschritte in der Werkstoffprüfung für Forschung und Praxis; Christ, H.-J. (Hrsg.); Stahleisen, Düsseldorf (2013) 379-384 Link

Wippler, J.; Fett, T.; Böhlke, T.; Hoffmann, M. J.; A micromechanically motivated finite element approach to the fracture toughness of silicon nitride; Journal of the European Ceramic Society 33/10 (2013) 1729-1736 Link

Khader, I.; Kürten, D.; Kailer, A.; A study on the wear of silicon nitride in rolling-sliding contact; Wear 296/1-2 (2012) 630–637 Link

RoliCer Consortium; What makes a material function? Let me compute the ways… Modelling in FP7 NMP Programme Materials projects; Rosso, L.; de Baas, A. F. (Eds.); European Commission Brüssel, Belgien (2012) 264 Seiten Link (PDF)

Wippler, J.; Böhlke, T.; Structure and fracture property relation for silicon nitride on the microscale; Computational Materials Science 64 (2012) 234-238 Link

The Rolicer project is funded by FP7 under the call NMP.2010.2.5-1 - Nanosciences, Nanotechnologies, Materials and new Production Technologies with Grant agreement no: 263476.

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