Matthias Labusch
Dr.-Ing. Matthias Labusch
Tel.: +49(0)201/183-2679 Raum: V15 S06 D87 matthias.labusch@uni-due.de |
Universität Duisburg-Essen Fakultät für IngenieurwissenschaftenAbteilung Bauwissenschaften Institut für Mechanik Universitätsstraße 15 Raum V15 S06 D87 45141 Essen |
Forschung • Lehre • Werdegang • Publikationen
Forschung
- Konstitutive Modellierung von magneto- und elektro-mechanischen Phasen
- Simulation der Interaktion zwischen den magneto- und elektro-mechanischen Phasen auf der Meso-Skale
- Makroskopische Charakterisierung der verzerrungsgekoppelten multiferroischen Komposite mittels geeigneter Makro-Meso-Übergänge auf Basis repräsentativer Volumenelemente
Lehre
- Technische Mechanik I (Stereostatik)
- Technische Mechanik II (Elastostatik I / Elastostatik II)
- Technische Mechanik III
Werdegang
2005 | Abitur am Leibniz Gymnasium, Gelsenkirchen |
2005-2006 | Zivildienst |
2006-2009 | Studium Bauingenieurwesen B.Sc. an der Universität Duisburg-Essen |
2009-2012 | Studium Computational Mechanics M.Sc. an der Universität Duisburg-Essen |
5/2011-9/2011 | Dreimonatiger Forschungsaufenthalt an der UC Berkeley |
11/2018 | Promotion zum Dr.-Ing. an der Universität Duisburg-Essen. Titel der Arbeit: "A two-scale homogenization scheme for the prediction of magneto-electric product properties" |
seit 2012 | Wissenschaftlicher Mitarbeiter am Institut für Mechanik, Universität Duisburg-Essen |
Publikationen
Labusch, M., Schröder, J. & Lupascu, D. C. (2019), "3D magnetostrictive Preisach model for the analysis of magneto-electric composites", Archive of Applied Mechanics. |
BibTeX:
@article{LabSchLup:2019:3mp, author = {M. Labusch and J. Schröder and D. C. Lupascu}, title = {3D magnetostrictive Preisach model for the analysis of magneto-electric composites}, booktitle = {Archive of Applied Mechanics}, year = {2019} doi = {10.1007/s00419-019-01529-w}, } |
Labusch, M., Schröder, J. & Lupascu, D. C. (2019), "A two-scale homogenization analysis of porous magneto-electric two-phase composites", Archive of Applied Mechanics. |
BibTeX:
@article{LabSchLup:2019:ath, author = {M. Labusch and J. Schröder and D. C. Lupascu}, title = {A two-scale homogenization analysis of porous magneto-electric two-phase composites}, booktitle = {Archive of Applied Mechanics}, year = {2019} doi = {10.1007/s00419-018-01500-1}, } |
Labusch, M., Lemke, V., Schmitz-Antoniak, C., Schröder, J., Webers, S. & Wende, H. (2019), "FEM-analysis of a multiferroic nanocomposite: comparison of experimental data and numerical simulation", Archive of Applied Mechanics. |
BibTeX:
@article{LabLemSchSchWebWen:2019:fao, author = {M. Labusch and V. Lemke and C. Schmitz-Antoniak and J. Schröder and S. Webers and H. Wende}, title = {FEM-analysis of a multiferroic nanocomposite: comparison of experimental data and numerical simulation}, booktitle = {Archive of Applied Mechanics}, year = {2019} doi = {10.1007/s00419-019-01534-z}, } |
Lemke, V., Labusch, M., Schröder, J. & Wende, H. (2017), "FEM-analysis of a multiferroic nanocomposite, comparison of experiment and numerical simulation", In Proceedings in Applied Mathematics and Mechanics. Vol. 17, pp. 521-522. |
BibTeX:
@article{LemLabSchWen:2017:fao, author = {V. Lemke and M. Labusch and J. Schröder and H. Wende}, title = {FEM-analysis of a multiferroic nanocomposite, comparison of experiment and numerical simulation}, booktitle = {Proceedings in Applied Mathematics and Mechanics}, year = {2017} volume = {17}, pages = {521--522} } |
Labusch, M., Schröder, J. & Keip, M.-A. (2017), "An FE^2-Scheme for Magneto-Electro-Mechanically Coupled Boundary Value Problems", In Ferroic Functional Materials: Experiment, Modeling and Simulation. Springer. |
BibTeX:
@incollection{LabSchKei:2017:afs, author = {M. Labusch and J. Schröder and M.-A. Keip}, title = {An FE^2-Scheme for Magneto-Electro-Mechanically Coupled Boundary Value Problems}, booktitle = {Ferroic Functional Materials: Experiment, Modeling and Simulation}, publisher = {Springer}, year = {2017} } |
Labusch, M., Schröder, J. & Keip, M.-A. (2017), "Multiscale homogenization of magneto-electric composites: how the ferroelectric polarization affects the product properties", In Smart Material Systems and Structures - Modeling and Simulation. Springer. |
BibTeX:
@incollection{LabSchKei:2017:mho, author = {M. Labusch and J. Schröder and M.-A. Keip}, title = {Multiscale homogenization of magneto-electric composites: how the ferroelectric polarization affects the product properties}, booktitle = {Smart Material Systems and Structures - Modeling and Simulation}, publisher = {Springer}, year = {2017} } |
Labusch, M., Schröder, J. & Lupascu, D.C. (2017), "Multiscale homogenization of magneto-electric porous two-phase composites", In Insights and Innovations in Structural Engineering, Mechanics and Computation, SEMC 2016. Springer. |
BibTeX:
@incollection{LabSchLup:2017:mho, author = {M. Labusch and J. Schröder and D.C. Lupascu}, title = {Multiscale homogenization of magneto-electric porous two-phase composites}, booktitle = {Insights and Innovations in Structural Engineering, Mechanics and Computation, SEMC 2016}, publisher = {Springer}, year = {2017} } |
Schröder, J. & Labusch, M. (2017), "A 3D magnetostrictive Preisach model for the simulation of magneto-electric composites on multiple scales", In Multiscale Modeling of Heterogeneous Structures. Springer. |
BibTeX:
@incollection{SchLab:2017:amp, author = {J. Schröder and M. Labusch}, title = {A 3D magnetostrictive Preisach model for the simulation of magneto-electric composites on multiple scales}, booktitle = {Multiscale Modeling of Heterogeneous Structures}, publisher = {Springer}, year = {2017} } |
Labusch, M., Keip, M.-A., Shvartsman, V.V., Lupascu, D.C. & Schröder, J. (2016), "On the influence of Ferroelectric Polarization States on the Magneto-electric Coupling in Two-phase Composites", Technische Mechanik. Vol. 36, pp. 73-87. |
BibTeX:
@article{LabKeiShvLupSch:2016:oti, author = {M. Labusch and M.-A. Keip and V.V. Shvartsman and D.C. Lupascu and J. Schröder}, title = {On the influence of Ferroelectric Polarization States on the Magneto-electric Coupling in Two-phase Composites}, journal = {Technische Mechanik}, year = {2016}, volume = {36}, pages = {73--87} } |
Labusch, M. & Schröder, J. (2016), "Computational characterization of ferroelectric solids with a 3D Preisach model based on an orientation distribution function", Proceedings in Applied Mathematics and Mechanics. Vol. 16, pp. 461-462. |
BibTeX:
@article{LabSch:16:cco, author = {M. Labusch and J. Schröder}, title = {Computational characterization of ferroelectric solids with a 3D Preisach model based on an orientation distribution function}, journal = {Proceedings in Applied Mathematics and Mechanics}, year = {2016}, volume = {16}, pages = {461-462} } |
Schröder, J., Labusch, M. & Keip, M.-A. (2016), "Algorithmic two-scale transition for magneto-electro-mechanically coupled problems. FE^2-scheme: Localization and homogenization", Computer Methods in Applied Mechanics and Engineering. Vol. 302, pp. 253-280. |
BibTeX:
@article{SchLabKei:2016:ats, author = {J. Schröder and M. Labusch and M.-A. Keip}, title = {Algorithmic two-scale transition for magneto-electro-mechanically coupled problems. FE^2-scheme: Localization and homogenization}, journal = {Computer Methods in Applied Mechanics and Engineering}, year = {2016}, volume = {302}, pages = {253--280} } |
Labusch, M., Schröder, J., Keip, M.-A. & Lupascu, D.C. (2015), "Computational characterization of magneto-electric composites: the role of ferroelectric pre-polarization", Proceedings in Applied Mathematics and Mechanics. Vol. 15, pp. 457-458. |
BibTeX:
@article{LabSchKeiLup:2015:cco, author = {M. Labusch and J. Schröder and M.-A. Keip and D.C. Lupascu}, title = {Computational characterization of magneto-electric composites: the role of ferroelectric pre-polarization}, journal = {Proceedings in Applied Mathematics and Mechanics}, year = {2015}, volume = {15}, pages = {457--458} } |
Schröder, J., Labusch, M., Keip, M.-A., Kiefer, B., Brands, D. & Lupascu, D.C. (2015), "Computation of non-linear magneto-electric product properties of 0-3 composites", GAMM--Mitteilungen. Vol. 38(1), pp. 8-24. |
BibTeX:
@article{SchLabKeiKieBraLup:2015:con, author = {J. Schröder and M. Labusch and M.-A. Keip and B. Kiefer and D. Brands and D.C. Lupascu}, title = {Computation of non-linear magneto-electric product properties of 0-3 composites}, journal = {GAMM--Mitteilungen}, year = {2015}, volume = {38}, number = {1}, pages = {8--24} } |
Labusch, M., Etier, M., Lupascu, D.C., Schröder, J. & Keip, M.-A. (2014), "Product properties of a two-phase magneto-electric composite: Synthesis and numerical modeling", Computational Mechanics. Vol. 54, pp. 71-83. |
BibTeX:
@article{LabEtiLupSchKei:2014:ppo, author = {M. Labusch and M. Etier and D.C. Lupascu and J. Schröder and M.-A. Keip}, title = {Product properties of a two-phase magneto-electric composite: Synthesis and numerical modeling}, journal = {Computational Mechanics}, year = {2014}, volume = {54}, pages = {71--83} } |
Labusch, M., Keip, M.-A., Kiefer, B. & Schröder, J. (2014), "Computation of effective non-linear inelastic properties of magnetostrictive composites", Proceedings in Applied Mathematics and Mechanics. Vol. 14, pp. 559-560. |
BibTeX:
@article{LabKeiKieSch:2014:coe, author = {M. Labusch and M.-A. Keip and B. Kiefer and J. Schröder}, title = {Computation of effective non-linear inelastic properties of magnetostrictive composites}, journal = {Proceedings in Applied Mathematics and Mechanics}, year = {2014}, volume = {14}, pages = {559--560} } |
Labusch, M., Keip, M.-A., Kiefer, B. & Schröder, J. (2014), "Computation of the effective magnetostrictive coefficient of magneto-mechanically coupled composites", Proceedings WCCM. |
BibTeX:
@article{LabKeiKieSch:2014:coe2, author = {M. Labusch and M.-A. Keip and B. Kiefer and J. Schröder}, title = {Computation of the effective magnetostrictive coefficient of magneto-mechanically coupled composites}, journal = {Proceedings WCCM}, year = {2014} } |
Keip, M.-A., Labusch, M. & Schröder:, J. (2013), "Two-scale computational homogenization of magneto-electric composites", Proceedings in Applied Mathematics and Mechanics. Vol. 13, pp. 529-532. |
BibTeX:
@article{KeiLabSch:2013:tsc, author = {M.-A. Keip and M. Labusch and J. Schröder:}, title = {Two-scale computational homogenization of magneto-electric composites}, journal = {Proceedings in Applied Mathematics and Mechanics}, year = {2013}, volume = {13}, pages = {529--532} } |
Labusch, M., Keip, M.-A., Schröder, J. & Lupascu, D. (2013), "Numerical analysis of two-phase magneto-electric composites", Proceedings in Applied Mathematics and Mechanics. Vol. 13, pp. 261-262. |
BibTeX:
@article{LabKeiSchLup:2013:nao, author = {M. Labusch and M.-A. Keip and J. Schröder and D. Lupascu}, title = {Numerical analysis of two-phase magneto-electric composites}, journal = {Proceedings in Applied Mathematics and Mechanics}, year = {2013}, volume = {13}, pages = {261--262} } |
Schröder, J., Keip, M.-A., Labusch, M. & Lupascu, D.C. (2013), "Strain induced product properties of magneto-electric composites", In Research and Applications in Structural Engineering, Mechanics and Computation. , pp. 393-398. CRC Press, Taylor & Francis Group, London. |
BibTeX:
@incollection{SchKeiLabLup:2013:sip, author = {Schröder, J. and Keip, M.-A. and Labusch, M. and Lupascu, D. C.}, title = {Strain induced product properties of magneto-electric composites}, booktitle = {Research and Applications in Structural Engineering, Mechanics and Computation}, publisher = {CRC Press, Taylor & Francis Group, London}, year = {2013}, pages = {393--398} } |
Labusch, M. (2012), "Finite Element implementation of a non-dissipative material model for the simulation of magnetostrictive solids" |
BibTeX:
@article{, author = {Labusch, M.}, title = {Finite Element implementation of a non-dissipative material model for the simulation of magnetostrictive solids}, year = {2012} } |
Labusch, M. (2010), "Ein magnetomechanisch gekoppeltes Finites Element für lineare, festkörpermechanische Randwertprobleme" |
BibTeX:
@article{, author = {Labusch, M.}, title = {Ein magnetomechanisch gekoppeltes Finites Element für lineare, festkörpermechanische Randwertprobleme}, year = {2010} } |
Stand: 17.04.2018