Univ. Prof. Dr. Reinhard Pippan

Function: Senior Scientist, retired
Room: 114
Phone: +43 (0) 3842-804-114
E-Mail: reinhard.pippan(at)oeaw.ac.at

Publications

  • Fatigue crack threshold analysis of TiAl SENT and CC specimens - Influence of starter notch and precracking
    S. Eck, J. Maierhofer, C. Tritremmel, H.-P. Gaenser, S. Marsoner, N. Martin, R. Pippan
    Intermetallics121, ARTN 106770 (2020)
  • Synthesis of nanodiamond reinforced silver matrix nanocomposites: Microstructure and mechanical properties
    A. Katzensteiner, J.M. Rosalie, R. Pippan, A. Bachmaier
    Mater. Sci. Eng. A-Struct. Mater. Prop. Microstruct. Process.782, ARTN 139254 (2020)
  • The effect of grain size on the fatigue overload behaviour of nickel
    W. Zhang, C. Simpson, P. Lopez-Crespo, M. Mokhtarishirazabad, T. Buslaps, R. Pippan, P. Withers
    Mater. Des.189, ARTN 108526 (2020)
  • Fatigue crack growth model including load sequence effects - Model development and calibration for railway axle steels
    J. Maierhofer, H.-P. Gaenser, D. Simunek, M. Leitner, R. Pippan, M. Luke
    Int. J. Fatigue132, ARTN 105377 (2020)
  • Crack Tip Plasticity Influence on Cracks Approaching Cu-Si Interface
    S. Zak, R. Pippan
    Procedia Structural Integrity23, 239-244 (2020)
  • Magnetic dilution by severe plastic deformation
    M. Stückler, L. Weissitsch, S. Wurster, P. Felfer, H. Krenn, R. Pippan, A. Bachmaier
    AIP Advances10, ARTN 015210 (2020)
  • Fatique crack growth in railway axle specimens - Transferability and model validation
    D. Simunek, M. Leitner, M. Rieger, R. Pippan, H.P. Gänser, F.J. Weber
    International Journal of Fatigue133, ARTN 105421 (2019)
  • Combined Fe and O effects on microstructural evolution and strengthening in Cu-Fe nanocrystalline alloys
    J. Guo, Q. Shao, O. Renk, L. Li, Y. He, Z. Zhang, R. Pippan
    Materials Science & Engineering772, ARTN 138800 (2019)
  • Understanding structural evolution of nanostructures during deformation form 2D (3D) Experiments
    O. Renk, M. Kapp, R. Pippan
    IOP Conference SeriesMaterials Science and Engineering580, ARTN 012021 (2019)
  • The effect of anisotropic microstructure on the crack growth and fatigue overload behaviour of ultrafine-grained nickel
    W. Zhang, C.A. Simpson, T. Leitner, X. Zhang, R. Pippan, P.J. Withers
    Acta Mater.184, 225-240 (2019)