Berlin 2012 – wissenschaftliches Programm

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MM: Fachverband Metall- und Materialphysik

MM 26: Computational Materials Modelling V - Fracture and Other Failure Mechanisms

MM 26.3: Vortrag

Dienstag, 27. März 2012, 12:30–12:45, TC 006

Carbon at Σ5 STGB in molybdenum - from ab-initio results to traction-separation law — •Arshad Tahir, Rebecca Janisch, and Alexander Hartmaier — Interdisciplinary Centre for Advanced Materials Simulation, Ruhr University Bochum, Germany

Grain boundaries play an important role during plastic deformation and failure of poly-crystals. The presence of point defects, line defects or segregated second phase particles at the grain boundaries affect their mechanical properties, which in turn alter the hardness or fracture toughness of the poly-crystals favorably or adversely. In case of the bcc transition metals, which are the materials of interest for high temperature applications, grain boundaries and segregated impurities at grain boundaries play a vital role as well. Therefore, a sigma-5 (310)[001] Σ5 STGB present in molybdenum (Mo) has been atomistically investigated and the results are being used for fracture prediction at continuum scale.

The atomistic calculations were performed using the VASP employing GGA to DFT. After the initial convergence tests for the optimization of k-point meshing and energy cut-off of the plane wave basis set, a Σ5 (310)[001] STGB structure was constructed, relaxed and stable translation states along [310], [-130] and [001] were obtained. With this model uni-axial tests loaded perpendicular to the grain boundary plane having different C contents were performed. From these results, traction separation data has been derived that is being used for the parameterization of cohesive zone model to predict fracture of Mo bi-crystals at continuum level using finite element analysis.