Active Filters

  • (-) Empa Authors = Zemp, Armin
  • (-) Empa Authors = Hannema, Gwenael
Search Results 1 - 11 of 11
  • RSS Feed
Select Page
Bending-wave localization and interaction band gaps in quasiperiodic beams
Van Damme, B., Matar, L., Hannema, G., Tallarico, D., Zemp, A., & Bergamini, A. (2021). Bending-wave localization and interaction band gaps in quasiperiodic beams. Physical Review B, 103(9), 094301 (7 pp.). https://doi.org/10.1103/PhysRevB.103.094301
Superelement modelling of elastic metamaterials: complex dispersive properties of three-dimensional structured beams and plates
Tallarico, D., Hannema, G., Miniaci, M., Bergamini, A., Zemp, A., & Van Damme, B. (2020). Superelement modelling of elastic metamaterials: complex dispersive properties of three-dimensional structured beams and plates. Journal of Sound and Vibration, 484, 115499 (18 pp.). https://doi.org/10.1016/j.jsv.2020.115499
Development of numerical model for the design of low-noise ballasted track
Zhang, J., Lechner, B., Freudenstein, S., Wunderli, J. M., Zemp, A., Hannema, G., & Hecht, M. (2020). Development of numerical model for the design of low-noise ballasted track. International Journal of Transport Development and Integration, 4(2), 179-189. https://doi.org/10.2495/TDI-V4-N2-179-189
Development of numerical model for the design of low-noise railway superstructure constructions
Zhang, J., Lechner, B., Freudenstein, S., Wunderli, J. M., Zemp, A., Hannema, G., & Hecht, M. (2020). Development of numerical model for the design of low-noise railway superstructure constructions. In M. C. Forde (Ed.), Railway engineering 2019 (p. (12 pp.). https://doi.org/10.3233/JNR-200159
Tacticity in chiral phononic crystals
Bergamini, A., Miniaci, M., Delpero, T., Tallarico, D., Van Damme, B., Hannema, G., … Zemp, A. (2019). Tacticity in chiral phononic crystals. Nature Communications, 10, 4525 (8 pp.). https://doi.org/10.1038/s41467-019-12587-7
Determination of vibro-acoustic properties of brass instruments
Zemp, A., Hannema, G., Van Damme, B., Steiger, A. v., Skamletz, M., & Egger, R. (2019). Determination of vibro-acoustic properties of brass instruments. Historic Brass Society Journal, 31, 77-92.
Entwicklung eines Oberbaukörperschallmodells. Simulationsrechnungen zur Bewertung von gleisseitigen Maßnahmen der Lärmminderung erfordern ein leistungsfähiges, validiertes Körperschallmodell.
Zhang, J., Lechner, B., Freudenstein, S., Hecht, M., Wunderli, J. M., Zemp, A., … Hannema, G. (2019). Entwicklung eines Oberbaukörperschallmodells. Simulationsrechnungen zur Bewertung von gleisseitigen Maßnahmen der Lärmminderung erfordern ein leistungsfähiges, validiertes Körperschallmodell. Eisenbahningenieur, 70(3), 9-14.
Validation of a FEM structure-borne sound radiation model for railway rolling noise
Hannema, G., Tröbs, H. M., Van Damme, B., Zemp, A., Heutschi, K., Lechner, B., … Wunderli, J. M. (2018). Validation of a FEM structure-borne sound radiation model for railway rolling noise (p. 171595 (9 pp.). Presented at the NOVEM 2018. Noise and vibration emerging methods. .
Entwicklung eines Simulationstools zur Auslegung lärmarmer Gleiskonstruktionen
Sohr, S., Hecht, M., Zhang, J., Lechner, B., Hannema, G., Zemp, A., & Wunderli, J. M. (2018). Entwicklung eines Simulationstools zur Auslegung lärmarmer Gleiskonstruktionen. ZEVrail, 142(10), 400-409.
Sound transmission through checkerboard sandwich panels
Van Damme, B., Hannema, G., & Zemp, A. (2018). Sound transmission through checkerboard sandwich panels. In W. Desmet, B. Pluymers, D. Moens, & W. Rottiers (Eds.), Proceedings of ISMA2018 including USD2018 (pp. 1073-1080). Katholieke Universitet.
Inertia amplification in phononic crystals for low frequency bandgaps
Delpero, T., Hannema, G., Van Damme, B., Schoenwald, S., Zemp, A., & Bergamini, A. (2017). Inertia amplification in phononic crystals for low frequency bandgaps. In A. Guemes (Ed.), 8th conference on smart structures and materials, SMART 2017 and 6th international conference on smart materials and nanotechnology in engineering, SMN2017 (pp. 1657-1668). International Center for Numerical Methods in Engineering.