PSI - Issue 77

Eva Graf et al. / Procedia Structural Integrity 77 (2026) 331–338 Graf et al. / Structural Integrity Procedia 00 (2026) 000–000

338

8

(PRG2213) for supporting research. This study was co-funded by the European Union and Estonian Research Council via project TEM-TA80. References Baumann, G., Stadlmann, A., Kurzböck, C., and Feist, F. (2019). Crash-proof Wood Composites in Lightweight Bodyworks of the Future, ATZ worldwide 121(11), 48-51. Filonchyk, M., Peterson, M.P., Zhang, L., Hurynovich, V., and He, Y. (2024). Greenhouse gases emissions and global climate change: Examining the influence of CO2, CH4, and N2O. Science of the Total Environment 935, 173359. Graf, E., Baumann, G., Wurm, S., Feist, F., Sommitsch, C., and Domitner, J. (2025). Impact performance of aluminum-wood lightweight composites. Submitted for review Graf, E., Matz, P., Auer, P., Kurzböck, C., Krenke, T., Painer, J., Gruber, L., Frieß, M., Bauer, C., Sommitsch, C., and Domitner, J. Experimental and Numerical Analysis of the Three-Point Bending Behavior of Hybrid Adhesive-Bonded Aluminum–Wood Plates. Journal of Materials Engineering and Performance 33, 6387-6397. Graf, E., Matz, P., Auer, P., Painer, J., Sommitsch, C., and Domitner, J. (2025). Bending behavior of hybrid laminates made of aluminum and wood for sustainable lightweight structures. Scientific Reports 15, 16495. Helms, H. and Lambrecht, U. (2007). The Potential Contribuiton of Light-Weighting to Reduce Transport Energy Consumption. The International Journal of Life Cycle Assessment 12, 58-64. Heyner, D., Piazza, G., Beeh, E., Seidel, G., Rieger, C., Große, T., Kohl, D., and Fischer, F. (2022). Crash test of a car door with a veneer-based door impact beam under realistic test conditions. VDI-Berichte 2387, 19-34. Huang, Y., Hu, J., Peng, H., Chen, J., Wang, Y., Zhu, R., and Zhang, Y. (2024). A new type of engineered wood product: Cross-laminated-thick veneers. Case Studies in Construction Materials 20, e02753. Kallakas, H., Rohumaa, A., Vahermets, H., and Kers, J. (2020). Effect of Different Hardwood Species and Lay-Up Schemes on the Mechanical Properties of Plywood. Forests 11, 649. Kawajiri, K., Kobayashi, M., and Sakamoto, K. (2020). Lightweight materials equal lightweight greenhouse gas emissions?. A historical analysis of greenhouse gases of vehicle material substitution. Journal of Cleaner Production 253, 119805. Kohl, D., Link, P., and Böhm, S. (2016). Wood As A Technical Material For Structural Vehicle Components. Procedia CIRP 40, 557-561. Österreichisches Normungsinstitut. (2005). ÖNORM EN 310, Holzwerkstoffe, Bestimmung des Biege-Elastizitätsmoduls und der Biegefestigkeit. Vienna: Österreichisches Normungsinstitut. Pramreiter, M., Stadlmann, A., Huber, C., Konnerth, J., Halbauer, P., Baumann, G., and Müller, U. (2021). The Influence of Thickness on the Tensile Strength of Finnish Birch Veneers under Varying Load Angles. Forests 12(1), 87. Rohumaa, A., Hunt, C.G., Hughes, M., Frihart, C.R., and Logren, J. (2013). The influence of lathe check depth and orientation on the bond quality of phenol-formaldehyde-bonded birch plywood. Holzforschung 67(7), 779-786. Ungerer, B., Matz, P., Kupelwieser, F., Al-Musawi, H., Praxmarer, G., Hartmann, S., and Müller, U. (2025). Developing a bio-based, continuous fibre reinforcement to push the impact energy limits of engineered wood in structural applications. Composites Part B 303, 112536. U.S. Departement of Agriculture, Forest Service, Forest Products Laboratory. (2010). Wood handbook: Wood as an engineering material (General Technical Report FPL-GTR-190). Madison, WI: U.S. Department of Agriculture, Forest Service, Forest Products Laboratory. Wang, Q., Wang, Z., Feng, X, Zhao, Y., and Li, Z. (2024). Mechanical properties and probabilistic models of wood and engineered wood products: A review of green construction materials. Case Studies in Construction Materials 21, e03796. Wurm, S., Wagner, M., Baumann, G., Vitzthum, K., Sehrschön, H., Krenke, T., and Feist, F. (2025). Wood-steel hybrid beams for electric vehicle battery housings: a comparative study with aluminum profiles in bending load case. European Journal of Wood and Wood Products 83(3), 114.