2018.7.15 Li et al. [ 40] carried out the experimental studies on the deformation and energy absorption of empty and foam-filled aluminum tubes which were crushed under four different loading angles of 0°, 5°, 10°and 15°. Three deformation modes, namely
Charlar en Línea2022.9.26 Figure 5 shows that the axial crushing curves of the aluminum alloy and CFRP tubes can be divided into two stages: the stable loading stage before peak
Charlar en Línea2018.7.15 Introduction Over years, conventional metals, e.g. aluminum/steel, are the dominant materials for thin-walled structures in automotive, aerospace and other
Charlar en Línea2022.9.26 Abstract. : This study experimentally investigated the axial crushing characteristics of the hybrid tubes with the configuration of aluminum/carbon fiber
Charlar en Línea2020.10.1 The crushing force increased linearly to the peak 184.7 kN firstly. In the following post-crushing stage, the load dropped sharply with the formation of one lobe,
Charlar en Línea2012.1.1 Cuie Wen RMIT University Abstract and Figures A numerical study of the crushing of circular aluminium tubes with and without aluminium foam fillers has been carried out to investigate their...
Charlar en Línea2023.5.24 The axial crushing processes of thin-walled tubes with different configurations are simulated, and the corresponding damage characteristics are
Charlar en Línea2017.9.1 Experimental results show that the presence of aluminum foam filled in the circular tubes changes the deformation modes and increases the energy absorption of
Charlar en Línea2020.10.1 The aluminum/carbon fiber reinforced plastics (CFRP)/aluminum hybrid tube (H-III) with a good interface bonding was prepared by spinning forming to explore its
Charlar en Línea2018.1.1 Introduction Thin-walled tubular structures have been widely used as energy absorbers in many applications because of their excellent capacity to dissipate kinetic
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