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Institute of Mechanics
Fakultät Maschinenbau
[Translate to English:] © Urheber​/​Quelle: Dr. Tobias Kaiser​/​TU Dortmund
Research assistant

M.Sc. Klas Feike

E-Mail

klas.feiketu-dortmundde

Telephone

+49 231 755 5751

Office

MB I, Room 123

ORCiD:

https://orcid.org/0009-0003-8689-9124

Please provide a copyright notice

Curriculum Vitae

Academic education

06/2021 - 02/2023 Master's degree (M. Sc.), Mechanical Engineering, Modeling and Simulation in Solid Mechanics, TU Dortmund University
10/2016- 06/2021 Bachelor's degree (B. Sc.), Mechanical Engineering, Modeling and Simulation in Solid Mechanics, TU Dortmund University

Awards

  • Hans-Uhde-Award for the Advancement of Science 2024,
    thyssenkrupp Industrial Solutions AG
  • Best Graduating Student Award 2023
    TU Dortmund University and Gesellschaft der Freunde der TU Dortmund (GdF)

Research

Development of damage models for service life analyses within the framework of the SFB/TRR188, project C01.

Research interests

  • Gradient-enhanced damage
  • Damage modeling
    • Path dependence and optimization
  • Cyclic fatigue investigations at low and high cycle numbers

Projects

Publications

K. Feike, K. Langenfeld, P. Kurzeja, J. Mosler:
On the accuracy of isotropic damage descriptions for complex load paths—Limits quantified by numerical optimization
Engineering Fracture Mechanics, 319, 110960, 2025,
DOI: 10.1016/j.engfracmech.2025.110960.

2023

K. Feike, K. Langenfeld, P. Kurzeja, J. Mosler:
On the impact of loading paths on damage evolution
93rd Annual Meeting of GAMM, Dresden, Germany, 30.05.-02.06.2023

2024

K. Feike, K. Langenfeld, P. Kurzeja, J. Mosler:
On the path-dependence of ductile damage models
94th Annual Meeting of GAMM, Magdeburg, Germany, 18.03.-22.03.2024

K. Feike, K. Langenfeld, P. Kurzeja, J. Mosler:
Analysis of fracture surface models - Possibilities and limitations
43rd Solid Mechanics Conference, Wroclaw, Poland, 16.09.-18.09.2024

2025

K. Feike, K. Langenfeld, P. Kurzeja, J. Mosler:
A Regularized Continuum Damage Model Based on Endurance Surfaces for Fatigue Prediction
95th Annual Meeting of GAMM, Poznan, Poland, 07.04.-11.04.2025

K. Feike, K. Langenfeld, P. Kurzeja, J. Mosler:
A gradient-enhanced coupled ductile-brittle anisotropic continuum damage model suitable for fatigue analysis
11th GACM Colloquium on Computational Mechanics, Brunswick, Germany, 21.09.-24.09.2025

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