texte alternatif                                    

    List of publications of Peter BERKE


      Contributions to collective works (2)
  1. 1. Berke, P., & Massart, T. (2011). Coupled friction and roughness surface effects in shallow spherical nanoindentation. In G. Zavarise & P. Wriggers (Eds.), Trends in computational contact mechanics (pp. 269-289). New York: Springer.(Lecture Notes in Applied and Computational Mechanics, 58). doi:10.1007/978-3-642-22167-5_15
  2. 2. Berke, P., Delplancke, M.-P., Lyalin, A., Semenikhina, V., & Solov’yov, A. V. (2008). Simulation of the nanoindentation procedure on pure nickel on the smallest length scale: A simple atomistic level model. In Latest Advances in Atomic Cluster Collisions: Structure and Dynamics from the Nuclear to the Biological Scale (pp. 205-224). Imperial College Press. doi:10.1142/9781848162389_0017
    3.   Peer-reviewed journal articles (30)
  3. 1. Giménez Azorín, R. R., Santana, M. V. B., & Berke, P. (2024). Computational investigation of bistable and non-bistable deployable scissor structures. Structures (Oxford), 61(2352-0124), 106063. doi:10.1016/j.istruc.2024.106063
  4. 2. Gulfo Hernandez, L. F., Wintiba, B., Li, A., Berke, P., & Massart, T. (2024). Incorporation of compaction effects in the automated generation of 3D woven composites representative volume elements by geometrical modelling. Journal of composite materials, 58(4), 547-567. doi:10.1177/00219983241226793
  5. 3. Sosso, B., & Berke, P. (2023). Probabilistic investigation of reinforced concrete structures under fire loading accounting for material and geometric uncertainties. Advances in structural engineering, 26(7), 1307-1324. doi:10.1177/13694332221151019
  6. 4. Chen, L., Berke, P., Massart, T., Bordas, S. P., & Beex, L. A. (2022). An adaptive multiscale quasicontinuum approach for mechanical simulations of elastoplastic periodic lattices. Mechanics research communications, 126, 104019. doi:10.1016/j.mechrescom.2022.104019
  7. 5. Santana, M., Hjiaj, M., & Berke, P. (2022). Modal analysis of a bistable deployable module with a refined joint model. Engineering structures, 269, 114798. doi:10.1016/j.engstruct.2022.114798
  8. 6. Murugan, V., Alaimo, G., Marcon, S., Berke, P., Massart, T., & Auricchio, F. (2022). Filament path optimization of Fused Filament Fabricated parts incorporating the effect of pre-fusion densities. International journal of solids and structures, 254, 111916. doi:https://doi.org/10.1016/j.ijsolstr.2022.111916
  9. 7. Sosso, B., Paz Gutierrez, F., & Berke, P. (2021). Computational analysis of reinforced concrete structures subjected to fire using a multilayered finite element formulation. Advances in structural engineering, 136943322110297. doi:10.1177/13694332211029732
  10. 8. Chen, L., Berke, P., Massart, T., Beex, L. A., Magliulo, M., & Bordas, S. P. A. (2021). A refinement indicator for adaptive quasicontinuum approaches for structural lattices. International journal for numerical methods in engineering, 122, 2498-2527. doi:https://doi-org.ezproxy.ulb.ac.be/10.1002/nme.6629
  11. 9. Arnouts, L., Massart, T., De Temmerman, N., & Berke, P. (2020). Coupled sizing, shape and topology optimisation of bistable deployable structures. Journal of the International Association for Shell and Spatial Structures, 206, 264-274. doi:https://doi.org/10.20898/j.iass.2020.009
  12. 10. Santana, M. V., Arnouts, L., Massart, T., Gonçalves, P. B., & Berke, P. (2020). Corotational 3D joint finite element tailored for the simulation of bistable deployable structures. Engineering structures, 227, 111387. doi:https://doi.org/10.1016/j.engstruct.2020.111387
    13. << Previous 1 2 3 4 5 6 7 8 Next >>