KOZMA, A., YANG, J., AHMAD, A., & ODENBREIT, C. (February 2024). Demountable composite beams for a circular economy: Large-scale beam tests. (LAJ23.C). Steel Construction, 17 (1), 11 - 20. doi:10.1002/stco.202300017 Peer Reviewed verified by ORBi |
ODENBREIT, C., YANG, J., KOZMA, A., ROMERO, A., Popa, N., Hanus, F., & OBIALA, R. (September 2023). Design for disassembling, reuse, and the circular economy: a demonstration building, “Petite Maison”. (LAC23.B3). ce/papers, 6 (3-4), 369-373. doi:10.1002/cepa.2537 Peer reviewed |
ODENBREIT, C., YANG, J., ROMERO, A., & KOZMA, A. (February 2023). A Lego-like steel-framed system for standardization and serial production. (LAJ22.C). Steel Construction, 16 (1), 56 - 64. doi:10.1002/stco.202200021 Peer Reviewed verified by ORBi |
SCHMIT, C., GHIOCA, D.-I., ODENBREIT, C., KOZMA, A., & Guerriero Annie. (2023). Pette Maison. Uni.lu. |
ODENBREIT, C., YANG, J., ROMERO, A., & KOZMA, A. (2022). A Reusable Structural System Fit for Geometrical Standardisation and Serial Production. (LAJ22.F). In ce/papers (pp. 11-20). Wiley online library. doi:10.1002/cepa.1693 Peer reviewed |
ODENBREIT, C., KOZMA, A., & ROMERO, A. (2022). Discussion of an algorithm to transfer arbitrary shear connector load-slip curves into an effective shear resistance. (LAC22.A). In Kolloquiumsband - 23 DASt-Forschungskolloquium. Kolloquiumsband. Peer reviewed |
KOZMA, A., Girao Coelho, A. M., YANG, J., & ODENBREIT, C. (2022). A NEW CONCEPT AND ALGORITHM TO TRANSFER BRITTLE AND ARBITRARY LOAD-SLIP CURVES INTO AN EFFECTIVE SHEAR RESISTANCE SUITABLE FOR EUROCODE 4. (LAJ22.A). Journal of Theoretical and Applied Mechanics, 60 (4), 705-718. doi:10.15632/jtam-pl/156164 Peer Reviewed verified by ORBi |
ODENBREIT, C., YANG, J., ROMERO, A., & KOZMA, A. (2021). A Reusable Structural System Fit for Geometrical Standardisation and Serial Production. (LAC21.D2). In Proceedings of the XIII Steel and Composite Construction Conference. ce/papers. Peer reviewed |
KOZMA, A., YANG, J., & ODENBREIT, C. (2021). Effective resistance of demountable shear connectors. (LAC21.A3). Proceedings of ICMS. Peer reviewed |
ODENBREIT, C., & KOZMA, A. (2020). Demountable and reusable construction system for steel-concrete composite structures. (LAC20.C). In C. ODENBREIT & A. KOZMA, Demountable and reusable construction system for steel-concrete composite structures. x. doi:10.1201/9780429343292-66 Peer reviewed |
KOZMA, A. (2020). Demountable composite beams: Analytical calculation approaches for shear connections with multilinear load-slip behaviour [Doctoral thesis, Unilu - University of Luxembourg]. ORBilu-University of Luxembourg. https://orbilu.uni.lu/handle/10993/44263 |
ODENBREIT, C., & KOZMA, A. (September 2019). Parametric study on non-ductile demountable shear connectors. (LAC19.H). ce/papers, 3 (3-4), 283-288. doi:10.1002/cepa.1057 Peer reviewed |
KOZMA, A., ODENBREIT, C., & BRAUN, M. V. (04 July 2019). Characterisation of demountable shear connector systems in composite beams. (LAC19.E) [Paper presentation]. 9th International Conference on Steel and Aluminium Structures ICSAS19, Bradford, United Kingdom. Peer reviewed |
KOZMA, A., ODENBREIT, C., BRAUN, M. V., Veljkovic, M., & Martin, N. (01 June 2019). Push-out tests on demountable shear connectors of steel concrete composite structures. (LAJ19.E). Structures, 21, 45-54. doi:10.1016/j.istruc.2019.05.011 Peer Reviewed verified by ORBi |
ODENBREIT, C., & KOZMA, A. (February 2019). Dismountable Flooring Systems for Multiple Use. (LAC19.A). IOP Conference Series: Earth and Environmental Science, 225. doi:10.1088/1755-1315/225/1/012028 Peer reviewed |
KOZMA, A., ODENBREIT, C., BRAUN, M. V., Veljkovic, M., & Nijgh, M. (2018). Push-out tests on demountable shear connectors of steel-concrete composite structures. In Proceedings of the 12th International Conference on Advances in Steel-Concrete Composite Structures (pp. 549-556). doi:10.4995/ASCCS2018.2018.7155 Peer reviewed |