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2599 results:
  • 41. Fabian Weber
    Date: 14.07.2025
    Associate Head of Department Group Leader "Fatigue and Fatigue Life Calculation" Scientific Assistant Function at the University of Applied Sciences
  • 42. Viktor Lyamkin
    Date: 14.07.2025
    2024 - today      Scientific Assistant, University of Applied Sciences Kaiserslautern 2016 -2023        Doctoral thesis "Temporally and Spatially Resolved Characterisation of Martensitic Transformation Induced in AISI 347 Steel by Thermo-Mechanical Fatigue Loads", Saarland University 2013 – 2016  &n
  • 43. Viktor Lyamkin
    Date: 14.07.2025
    Scientific Assistant Function at the University of Applied Sciences
  • 44. Viktor Lyamkin - Dr.-Ing Viktor Lyamkin
    Date: 14.07.2025
    Dr.-Ing Viktor Lyamkin phone :       +49 631 3724-2043 e-mail:        viktor.lyamkin@hs-kl.de building :    H room :        2.012
  • 45. Jan-Erik Nebel - M.Sc. Jan-Erik Nebel
    Date: 14.07.2025
    M.Sc. Jan-Erik Nebel phone:     +49 631 3724-2289 e-mail:      jan-erik.nebel@hs-kl.de building:    H room:       2.012
  • 46. Janina Koziol
    Date: 14.07.2025
    2024 - today    Group leader "Analytics and Microscopy" 2023 – today   Scientific Assistant, University of Applied Sciences Kaiserslautern 2022 – 2023    Assistant Materials Science Laboratory, University of Applied Sciences Kaiserslautern 2022                S
  • 47. Vanessa Hayna
    Date: 14.07.2025
    Research Assistant Function at the University of Applied Sciences
  • 48. Jan-Erik Nebel
    Date: 14.07.2025
    2024 - today    Scientific Assistant WWHK, University of Applied Sciences Kaiserslautern 2022 - 2024    Assistant Materials Science Laboratory, University of Applied Sciences Kaiserslautern 2022 - 2023    Master's degree in Mechanical Engineering/Mechatronics, Universiy of Applied Sciences Kaiserslautern 20
  • 49. Jan-Erik Nebel
    Date: 14.07.2025
    Scientific Assistant  Function at the University of Applied Sciences
  • 50. Characterisation of materials and structures by means of scanning electron microscopy and EDX, EBSD and STEM analysis (Kopie 1)
    Date: 14.07.2025
    The influence of frequency is clearly recognizable in the cyclic deformation curves of load increase tests (LIT) in the form of a shift of the first material response to higher stress amplitudes (220 MPa for 80 Hz and 240 MPa for 260 Hz). This first material response can also be used to estimate the fatigue strength of the material. The increase
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