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
- Crack propagation resistance of TiAl alloysMRS Bull.47, 1-8 (2022)DOI RIS ENW BIB
- Influence of Processing Route on the Fracture Resistance of Equal Channel Angular Pressing Deformed IronAdv. Eng. Mater.2201011, ARTN 2201011 (2022)DOI RIS ENW BIB
- Magnetoresistive behaviour of ternary Cu-based materials processed by high-pressure torsion IOP Conf. Series: Materials Science and Engineering, ed., 1-6 (2022)DOI RIS ENW BIB
- Achieving 1 GPa fatigue strength in nanocrystalline 316L steel through recovery annealingScr. Mater.217, ARTN 114773 (2022)DOI RIS ENW BIB
- On the transition of failure control from material-intrinsic defects to defects forming during monotonically increasing and cyclic mechanical loading in WC-Co hard metal at elevated temperatureActa Mater.235, ARTN 118087 (2022)DOI RIS ENW BIB
- Crack path investigations in a pearlitic rail steel after pre-deformation under cyclic Mode-II loadingEngineering Failure Analysis, 1-12 (2022)DOI RIS ENW BIB
- Mitigating the detrimental effects of galvanic corrosion by nanoscale composite architecture designNPJ MATERIALS DEGRADATION6, ARTN 47 (2022)DOI RIS ENW BIB
- Microstructural Impact on Fatigue Crack Growth Behavior of Alloy 718metals12, ARTN 12050710 (2022)DOI RIS ENW BIB
- The importance of lamellar architecture to obtain ductility in heavily cold-worked pearlitic steels revealed by microbending experimentsActa Materialia232, ARTN 117935 (2022)DOI RIS ENW BIB
- Fatigue crack growth of deformed pearlitic rail steels under multiaxial loadingScienceDirect, 313-326 (2022)DOI RIS ENW BIB