Full name Familienname, Vorname
Hoffmann, Paul
 
Main Affiliation Organisations­zuordnung
 

Results 1-8 of 8 (Search time: 0.003 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Hoffmann Paul - 2023 - Thermo-mechanically induced fatigue damage in thin metal...pdf.jpgHoffmann, Paul Thermo-mechanically induced fatigue damage in thin metal films: : simulation, comparison to experiments, and fatigue damage parameter calibrationThesis Hochschulschrift 2023
2Hoffmann, Paul ; Moser, Sebastian ; Kofler, Corinna ; Nelhiebel, Michael ; Tscharnuter, Daniel ; Karunamurthy, Balamurugan ; Pettermann, Heinz E. ; Todt, Melanie Thermomechanical fatigue damage modeling and material parameter calibration for thin film metallizationsArtikel Article 2022
3Hoffmann, Paul ; Moser, Sebastian ; Kofler, Corinna ; Nelhiebel, Michael ; Tscharnuter, Daniel ; Karunamurthy, Balamurugan ; Pettermann, Heinz ; Todt, Melanie Thermo-mechanical fatigue damage modeling and material parameter calibration for thin film metallizationsPresentation Vortrag2022
4Hoffmann, Paul ; Nelhiebel, Michael ; Pettermann, Heinz ; Todt, Melanie A continuum fatigue damage model enriched by information from the grain structurePresentation Vortrag2022
5Hoffmann, Paul ; Nelhiebel, Michael ; Karunamurthy, Balamurugan ; Pettermann, Heinz E. ; Todt, Melanie Simulation of Fatigue Damage in Clusters of DMOS Cells Subjected to Non-Uniform Transient Thermo-Mechnical LoadingKonferenzbeitrag Inproceedings2020
6Hoffmann, Paul ; Springer, Martin ; Todt, Melanie ; Karunamurthy, Balamurugan ; Nelhiebel, Michael ; Pettermann, Heinz E. Simulation of fatigue damage in power semiconductors subjected to transient thermo-mechanical loadingPräsentation Presentation2019
7Hoffmann Paul - 2018 - Elasto-plastic finite element simulations of...pdf.jpgHoffmann, Paul Elasto-plastic finite element simulations of nanoindentation problems utilizing Hill's potentialThesis Hochschulschrift 2018
8Schasching, Marius M. ; Todt, Melanie ; Humer, Michael ; Hoffmann, Paul ; Schwab, Martin ; Pettermann, Heinz E. Simulating Ply Damage and Delamination in Laminated Composites - An Extended Shell-Based Ply-Level ApproachPräsentation Presentation2017