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Publikationen von Dr. Michael Eden

Zeitschriftenartikel (8)

  1. M. Wichmann, M. Eden, D. Zvegincev, F. Wiesener, B. Bergmann, A. Schmidt.
    Modeling the wetting behavior of grinding wheels.
    The International Journal of Advanced Manufacturing Technology, 128, 1741–1747, 2023.

    DOI: 10.1007/s00170-023-12002-y

  2. C. Nikolopoulos, M. Eden, A. Muntean.
    Multiscale simulation of colloids ingressing porous layers with evolving internal structure: A computational study.
    GEM -- International Journal on Geomathematics, 14(1), 19 p., 2023.

    DOI: 10.1007/s13137-022-00211-8

  3. M. Eden, H. S. Mahato.
    Homogenization of a Poroelasticity Model for Fibre-Reinforced Hydrogels.
    Mathematical Methods in the Applied Sciences, 45(17):11562-11580, 2022.

    DOI: 10.1002/mma.8466

  4. M. Eden, A. Muntean, C. Nikolopoulos.
    A multiscale quasilinear system for colloids deposition in porousmedia: Weak solvability and numerical simulation of anear-clogging scenario.
    Nonlinear Analysis: Real World Applications, 63:1-29, Elsevier, 2021.

    DOI: 10.1016/j.nonrwa.2021.103408
    online unter: https://www.sciencedirect.com/science/article/pii/S1468121821001206?via%3Dihub

  5. M. Eden.
    Homogenization of a Moving Boundary Problem With Prescribed Normal Velocity.
    Advances in Mathematical Sciences and Applications, 28(1):313-341, 2019.
  6. M. Eden, A. Muntean.
    Corrector estimates for the homogenization of a two-scale thermoelasticity problem with a priori known phase transformations.
    Electronic Journal of Differential Equations , 2017(57):1-21, 2017.

    online unter: https://ejde.math.txstate.edu/Volumes/2017/57/eden.pdf

  7. M. Eden, A. Muntean.
    Homogenization of a fully coupled thermoelasticity problem for a highly heterogeneous medium with a priori known phase transformations.
    Mathematical Methods in the Applied Sciences, 40(11):3955-3972, 2017.

    DOI: 10.1002/mma.4276
    online unter: https://onlinelibrary.wiley.com/doi/epdf/10.1002/mma.4276

  8. M. Eden, M. Böhm.
    Homogenization of a poro-elasticity model coupled with diffusive transport and a first order reaction for concrete.
    Networks and Heterogeneous Media, 9(4):599-615, 2014.

    DOI: 10.3934/nhm.2014.9.599

Preprints (1)

  1. M. Eden, T. Freudenberg.
    Effective Heat Transfer Between a Porous Medium and a Fluid Layer: Homogenization and Simulation.
    Zur Veröffentlichung eingereicht.

    DOI: 10.48550/arXiv.2212.09291

Qualifikationsarbeiten (1)

  1. M. Eden.
    Homogenization of Thermoelasticity Systems Describing Phase Transformations.
    Dissertationsschrift, Universität Bremen, 2018.

    online unter: https://elib.suub.uni-bremen.de/edocs/00106499-1.pdf

Tagungsbeiträge (2)

  1. F. Wiesener, B. Bergmann, M. Wichmann, M. Eden, T. Freudenberg, A. Schmidt.
    Modeling of heat transfer in tool grinding for multiscale simulations.
    CIRP CMMO 2023, 31.05.-02.06.2023, Karlsruhe, Deutschland.
    Procedia CIRP, 117:269-274, 2023.
  2. B. Bergmann, M. Wichmann, A. Schmidt, M. Eden, D. Zvegincev.
    Modelling of cooling effects in tool grinding using a multi-scale material removal and fluid simulation.
    CIRP Winter Meetings, STC G - Grinding, 18.02.2022, Paris, Frankreich.