Dominik-Oliver Cloidt

M.Sc Dominik-Oliver Cloidt

Tel.: +49 201/183-3792
Room: R12 S02 H14
dominik-oliver.cloidt@uni-due.de

Universität Duisburg-Essen

Fakultät für Ingenieurwissenschaften
Abteilung Bauwissenschaften
Institut für Mechanik
Universitätsstraße 15
Raum R12 S02 H17
45141 Essen

ORCID logo 0009-0000-3788-7627 

 

ResearchTeachingCareer • Publications

Research

Focus

  • Modeling of microstructures under severe plastic deformation
  • Methodological Development in the Material-Point-Method (MPM)
  • Inverse material parameter identification

Teaching

Exercises

  • Technische Mechanik 1
  • Technische Mechanik 2

Career

10/2017 bis 09/2021 B. Sc. in Mechanical Engineering with specialization in Applied Mechanics, Ruhr-University Bochum
10/2020 bis 03/2021 Internship in Body Development – Vehicle Safety at Dr. Ing. h. c. F. Porsche AG
04/2021 bis 07/2021

Bachelor's Thesis in Body Development – Crash Simulation at Dr. Ing. h. c. F. Porsche AG
10/2021 bis 05/2024

M.Sc. in Mechanical Engineering with specialization in Applied Mechanics, Ruhr-University Bochum
10/2022 bis 04/2023

Supplementary studies in Biomechanics, Numerics and Applied Mathematics, University Sevilla, Spain
06/2023 bis 07/2023 Supplementary studies in Prototyping, Babson-College, Boston, USA
06/2024 bis heute Research Associate at the Institute of Mechanics, University Duisburg-Essen

Publications

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Makhool, L., Cloidt, D.-O. & Balzani, D. (2026), "Efficient Identification of Stiffness Parameters in Hyperelastic Models for Coated Woven Fabrics Based on a Single Experiment - Comparative Study Using Real Experiment", Experimental Mechanics., March, 2026. Vol. 66(3), pp. 529-549.

[BibTeX]
BibTeX: 
@article{Makhool2026,
  author = {Makhool, L. and Cloidt, D.-O. and Balzani, D.},
  title = {Efficient Identification of Stiffness Parameters in Hyperelastic Models for Coated Woven Fabrics Based on a Single Experiment - Comparative Study Using Real Experiment},
  journal = {Experimental Mechanics},
  year = {2026},
  volume = {66},
  number = {3},
  pages = {529--549}
}

Stand: 11.06.2026