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- Search in name records for: "Schasching Marius" ("Marius Schasching" interpreted as a name)
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6 matching records have been found with your search parameters:
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- Faculty of Mechanical and Industrial Engineering |
Vorträge und Posterpräsentationen (ohne Tagungsband-Eintrag):
- Source: Faculty of Mechanical and Industrial Engineering
M. Schasching, R. Duy, T. Ceglar, M. Todt, H. E. Pettermann:
"Simulation of The Wrinkling of Thin Hyperelastic Composite Strips under Global Tensile Loading";
Talk: 8th ECCOMAS Thematic Conference on the Mechanical Response of Composites,
Göteborg;
2021-09-22
- 2021-09-24.
- Source: Faculty of Mechanical and Industrial Engineering
M.M. Schasching, M. Todt, M. Humer, P. Hoffmann, M. Schwab, H. E. Pettermann:
"Simulating Ply Damage and Delamination in Laminated Composites - An Extended Shell-Based Ply-Level Approach";
Talk: 20th International Conference on Composite Structures (ICCS20),
Paris;
2017-09-04
- 2017-09-07.
Diplom- und Master-Arbeiten (eigene und betreute):
- Source: Faculty of Mechanical and Industrial Engineering
M.M. Schasching:
"Finite Elemente Simulationen einer Composite-Struktur - Interaktion von Schichtschädigung und Delamination";
Supervisor: H. E. Pettermann;
Institut für Leichtbau und Struktur-Biomechanik, TU Wien,
2017;
final examination: 2017-06-21.
More information
Wissenschaftliche Berichte:
- Source: Faculty of Mechanical and Industrial Engineering
R. Duy, M. Schasching, M. Todt, H. E. Pettermann:
"Wrinkling of hyperelastic sheets in the finite strain regime";
Report for Polymer Competence Center Leoben GmbH (PCCL);
Report No. ILSB-Report 309,
2021;
18 pages.
- Source: Faculty of Mechanical and Industrial Engineering
M. Schasching, R. Duy, M. Todt, H. E. Pettermann:
"Wrinkling of Anisotropic Hyperelastic Sheets in the Finite Strain Regime";
Report for Polymer Competence Center Leoben GmbH (PCCL);
Report No. ILSB-Report 310,
2021;
34 pages.
- Source: Faculty of Mechanical and Industrial Engineering
M. Schasching, M. Todt:
"Linear continuum modeling of lattice materials by means of the Finite Element Method";
Report No. ILSB-Report 312,
2021;
55 pages.
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