
Univ. Prof. Dr. Reinhard Pippan
Function: Senior Scientist, retired
Freelancer at ESI and Mercator Fellow of DFG
Room: 114
Phone: +43 (0) 3842-804-114
E-Mail: reinhard.pippan(at)oeaw.ac.at
Research
Nanomaterials by Severe Plastic Deformation, Micro- and Nanomechanics, Complex Materials
Methods
High Pressure Torsion, SEM, Fracture Mechanics, Micromechanics, Dislocation Mechanics
Teaching
Ausgewählte Kapitel aus der Festkörpermechanik, Zelluläre Materialien und Verbundwerkstoffe
Projects
Femtosecond laser application in materials science, Deformation- and fracture behavior of advanced materials, USMS - Ultrastrong Materials, Deformation-induced grain growth in nanocrystalline copper, Effect of grain architecture on the ductility in ultrafine grained and nanocrystalline SPD materials
Publications
- About the fatigue crack propagation threshold of metals as a design criterion - A review
Eng. Fract. Mech.153, 190-243 (2016)DOI RIS ENW BIB - Anisotropic deformation characteristics of an ultrafine- and nanolamellar pearlitic steel
Acta Mater.106, 239-248 (2016)DOI RIS ENW BIB - Ab initio calculations of grain boundaries in bcc metals
Model. Simul. Mater. Sci. Eng.24, ARTN 035013 (2016)DOI RIS ENW BIB - Recent advances in research in severe plastic deformation in Leoben
(2016)RIS ENW BIB - Microstructure and metallic ion release of pure titanium and Ti-13Nb-13Zr alloy processed by high pressure torsion
Mater. Des.91, 340-347 (2016)DOI RIS ENW BIB - Thermally Activated Deformation Behavior of ufg-Au: Environmental Issues During Long-Term and High-Temperature Nanoindentation Testing
JOM67, 2934-2944 (2015)DOI RIS ENW BIB - Deformation Behavior and Microstructural Evolution of Cu-Ag Alloys Processed by High-Pressure Torsion
Adv. Eng. Mater.17, 1828-1834 (2015)DOI RIS ENW BIB - Modeling of Fatigue Crack Growth: Dislocation Models
Reference Module in Materials Science and Materials Engineering (2015)DOI RIS ENW BIB - Effects of microstructure and crystallography on crack path and intrinsic resistance to shear-mode fatigue crack growth. Fracture and Structural Integrity
Fracture and Structural Integrity, 142-149 (2015)DOI RIS ENW BIB - Thermally activated deformation processes in body-centered cubic Cr - How microstructure influences strain-rate sensitivity
Scr. Mater.106, 42-45 (2015)DOI RIS ENW BIB