1. A mixed finite element formulation for elastoplasticity. (22nd July 2022) Authors: Nagler, Michaela; Pechstein, Astrid; Humer, Alexander Journal: International journal for numerical methods in engineering Issue: Volume 123:Number 21(2022) Page Start: 5346 Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗
2. A noninvasive system‐level model order reduction scheme for flexible multibody simulation. (31st March 2020) Authors: Naets, Frank; Devos, Thijs; Humer, Alexander; Gerstmayr, Johannes Journal: International journal for numerical methods in engineering Issue: Volume 121:Number 14(2020) Page Start: 3083 Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗
3. Design and Optimization of Large‐Deformation Compliant Mechanisms. Issue 1 (17th December 2018) Authors: Humer, Alexander Other Names: Müller G. guestEditor.; Ulbrich M. guestEditor. Journal: Proceedings in applied mathematics and mechanics Issue: Volume 18:Issue 1(2018) Page Start: n/a Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗
4. General sliding-beam formulation: A non-material description for analysis of sliding structures and axially moving beams. (18th August 2020) Authors: Humer, Alexander; Steinbrecher, Ivo; Vu-Quoc, Loc Journal: Journal of sound and vibration Issue: Volume 480(2020) Page Start: Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗
5. High-order mixed finite elements for an energy-based model of the polarization process in ferroelectric materials. (February 2021) Authors: Pechstein, Astrid S; Meindlhumer, Martin; Humer, Alexander Journal: Journal of intelligent material systems and structures Issue: Volume 32:Number 3(2021) Page Start: 355 Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗
6. Modeling electro‐elastic coupling phenomena in electrostrictive polymers in the context of structural mechanics. Issue 1 (18th November 2019) Authors: Hansy-Staudigl, Elisabeth; Krommer, Michael; Vetyukov, Yury; Humer, Alexander Other Names: Eberhardsteiner J. guestEditor.; Schöberl M. guestEditor. Journal: Proceedings in applied mathematics and mechanics Issue: Volume 19:Issue 1(2019) Page Start: n/a Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗
7. New mixed finite elements for the discretization of piezoelectric structures or macro-fiber composites. (September 2018) Authors: Pechstein, Astrid S; Meindlhumer, Martin; Humer, Alexander Other Names: Benjeddou Ayech guest-editor. Journal: Journal of intelligent material systems and structures Issue: Volume 29:Number 16(2018) Page Start: 3266 Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗
8. On the numerical modeling of sliding beams: A comparison of different approaches. (10th November 2017) Authors: Steinbrecher, Ivo; Humer, Alexander; Vu-Quoc, Loc Journal: Journal of sound and vibration Issue: Volume 408(2017) Page Start: 270 Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗
9. Smoothed particle hydrodynamics and modal reduction for efficient fluid–structure interaction. Issue 4 (4th July 2018) Authors: Schörgenhumer, Markus; Humer, Alexander Journal: Mathematical and computer modelling of dynamical systems Issue: Volume 24:Issue 4(2018) Page Start: 401 Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗
10. Smoothed Particle Hydrodynamics and Model-Order Reduction for Efficient Modeling of Fluid-Structure Interaction. Issue 1 (2015) Authors: Schörgenhumer, Markus; Humer, Alexander; Gerstmayr, Johannes Journal: IFAC-PapersOnLine Issue: Volume 48:Issue 1(2015) Page Start: 352 Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗