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Shear tests on full-scale European ash glued laminated timber beams
Palma, P., Steiger, R., Strahm, T., & Gehri, E. (2023). Shear tests on full-scale European ash glued laminated timber beams. In A. Q. Nyrud, K. A. Malo, & K. Nore (Eds.), World conference on timber engineering 2023 (WCTE 2023). Proceedings (pp. 132-138). https://doi.org/10.52202/069179-0018
Shear stiffness and strength of European ash glued laminated timber
Palma, P., Steiger, R., Strahm, T., & Gehri, E. (2022). Shear stiffness and strength of European ash glued laminated timber. In R. Görlacher (Ed.), Proceedings meeting 55. International network on timber engineering research (INTER) (pp. 225-241). Timber Scientific Publishing.
Numerical and experimental investigations on the mechanical properties of glued laminated timber beams made from European beech wood
Ehrhart, T., Palma, P., Steiger, R., & Frangi, A. (2018). Numerical and experimental investigations on the mechanical properties of glued laminated timber beams made from European beech wood (p. (7 pp.). Presented at the WCTE 2018 - world conference on timber engineering. .
Rheological modelling of asphalt binder under different short and long-term aging conditions
Wang, D., Cannone Falchetto, A., Riccardi, C., Schrader, J., Hofko, B., Poulikakos, L., & Wistuba, M. P. (2018). Rheological modelling of asphalt binder under different short and long-term aging conditions (p. (18 pp.). Presented at the Transportation research board 97th annual meeting.
Temperature dependence of elastic properties of ZrB<SUB>2</SUB>–SiC composites
Lugovy, M., Slyunyayev, V., Orlovskaya, N., Mitrentsis, E., Aneziris, C. G., Graule, T., & Kuebler, J. (2016). Temperature dependence of elastic properties of ZrB2–SiC composites. Ceramics International, 42(2), 2439-2445. https://doi.org/10.1016/j.ceramint.2015.10.044
Investigation of mode III fracture toughness using an anti-clastic plate bending method
Farshad, M., & Flüeler, P. (1998). Investigation of mode III fracture toughness using an anti-clastic plate bending method. Engineering Fracture Mechanics, 60(5-6), 597-603. https://doi.org/10.1016/S0013-7944(98)00020-4