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International Journal of Crashworthiness Volume 29, 2024 - Issue 1
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Original Articles

Effects of tube design on crashworthiness of CFRP thin-walled square beams filled with aluminium honeycomb under axial impact

Yong XiaoSchool of Mechanotronics and Vehicle Engineering, Chongqing Jiaotong University, Nan’an District, Chongqing, ChinaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-7741-9078View further author information
ORCID Icon,
HongLin HuSchool of Mechanotronics and Vehicle Engineering, Chongqing Jiaotong University, Nan’an District, Chongqing, ChinaView further author information
,
Dong LiangSchool of Mechanotronics and Vehicle Engineering, Chongqing Jiaotong University, Nan’an District, Chongqing, ChinaView further author information
,
Hai LongSchool of Mechanotronics and Vehicle Engineering, Chongqing Jiaotong University, Nan’an District, Chongqing, ChinaView further author information
,
Sunke ZhuSchool of Mechanotronics and Vehicle Engineering, Chongqing Jiaotong University, Nan’an District, Chongqing, ChinaView further author information
&
XiaoDong WenSchool of Mechanotronics and Vehicle Engineering, Chongqing Jiaotong University, Nan’an District, Chongqing, ChinaView further author information
Pages 57-66 | Received 16 Jun 2022, Accepted 20 Feb 2023, Published online: 01 Mar 2023

References

  • Liu Q, Ou Z, Mo Z, et al. Experimental investigation into dynamic axial impact responses of double hat shaped CFRP tubes. Composites Part B. 2015;79:494–504.
  • Liu T, Hou S, Nguyen X, et al. Energy absorption characteristics of sandwich structures with composite sheets and bio coconut core. Composites Part B. 2017;114:328–338.
  • Kathiresan M, Manisekar K. Axial crush behaviours and energy absorption characteristics of aluminium and E-glass/epoxy over-wrapped aluminium conical frusta under low velocity impact loading. Compos Struct. 2016;136:86–100.
  • Kathiresan M, Manisekar K, Manikandan V. Performance analysis of fibre metal laminated thin conical frusta under axial compression. Compos Struct. 2012;94(12):3510–3519.
  • Kangmin L, Liu Q, Cui Z, et al. Multiobjective optimization of perforated square CFRP tubes for crashworthiness. Thin-Walled Struct. 2020;149:106628.
  • Kalhor R, Akbarshahi H, Case SW. Numerical modeling of the effects of FRP thickness and stacking sequence on energy absorption of metal–FRP square tubes. Compos Struct. 2016;147:231–246.
  • Xiao Y, Hu Y, Zhang J, et al. Dynamic bending responses of CFRP thin-walled square beams filled with aluminum honeycomb. Thin-Walled Structs. 2018;132:494–503.
  • Cui XL, Bao PY, Li T, et al. Research on the failure mechanism of elastic strip fracture in corrugated sections of metros. Eng Fail Anal. 2023;134:106837.
  • Costas M, Díaz J, Romera L, et al. A multi-objective surrogate-based optimization of the crashworthiness of a hybrid impact absorber. Int J Mech Sci. 2014;88:46–54.
  • Yn A, Shui WA, Mo LB, et al. Crashworthiness design of self-similar graded honeycomb-filled composite circular structures. Constr Build Mater. 2020;233:117344.
  • Guo L, Yu J. Dynamic bending response of double cylindrical tubes filled with aluminum foam. Int J Impact Eng. 2011;38(2-3):85–94.
  • Shen Y, Wu Z, Hu X. Effect of reinforcement layer number on energy absorption of aluminum-CFRP hybrid square tubes under axial loading: experimental and numerical study. Thin-Walled Struct. 2020;155:106935.
  • Zhu G, Yu Q, Zhao X, et al. Energy-absorbing mechanisms and crashworthiness design of CFRP multi-cell structures. Compos Struct. 2020;233:111631.
  • Huang Z, Zhang X, Yang C. Experimental and numerical studies on the bending collapse of multi-cell aluminum/CFRP hybrid tubes. Composites Part B. 2020;181:107527.
  • Abada M, Ibrahim A. Hybrid multi-cell thin-walled tubes for energy absorption applications: blast shielding and crashworthiness. Composites Part B. 2020;183:107720.
  • Wang Z, Yao S, Lu Z, et al. Matching effect of honeycomb-filled thin-walled square tube-Experiment and simulation. Compos Struct. 2016;157:494–505.
  • Wang Z, Liu J. Mechanical performance of honeycomb filled with circular CFRP tubes. Composites Part B. 2018;135:232–241.
  • Baykasoğlu A, Baykasoğlu C, Cetin E. Multi-objective crashworthiness optimization of lattice structure filled thin-walled tubes – ScienceDirect. Thin-Walled Struct. 2020;149:106630.
  • Shin DK, Kim HC, Lee JJ. Numerical analysis of the damage behavior of an aluminum/CFRP hybrid beam under three point bending. Composites Part B. 2014;56:397–407.
  • Zhu G, Zhao Z, Hu P, et al. On energy-absorbing mechanisms and structural crashworthiness of laterally crushed thin-walled structures filled with aluminum foam and CFRP skeleton. Thin-Walled Struct. 2021;160:107390.
  • Xiao Y, Zang M, Li Z. Effects of aluminum honeycomb filler on crashworthiness of CFRP thin-walled beams under dynamic impact. Int J Crashworthiness. 2021;27:1–10.
  • Xiao Y, Wen XD, Liang D. Failure modes and energy absorption mechanism of CFRP thin-walled square beams filled with aluminum honeycomb under dynamic impact. Compos Struct. 2021;271:114159.
  • Zhang YQ, Zong ZJ, Liu Q, et al. Static and dynamic crushing responses of CFRP sandwich panels filled with different reinforced materials. Mater Des. 2017;117:396–408.
  • Paz J, Díaz J, Romera L, et al. Size and shape optimization of aluminum tubes with GFRP honeycomb reinforcements for crashworthy aircraft structures. Compos Struct. 2015;133:499–507.
  • Yin HF, Xiao YY, Wen GL, et al. Multiobjective optimization for foam-filled multi-cell thin-walled structures under lateral impact. Thin-Walled Struct. 2015;94:1–12.
  • Liu Q, Xu X, Ma J, et al. Lateral crushing and bending responses of CFRP square tube filled with aluminum honeycomb. Composites Part B. 2017;118:104–115.
  • Sun G, Li S, Liu Q, et al. Experimental study on crashworthiness of empty/aluminum foam/honeycomb–filled CFRP tubes. Compos Struct. 2016;152:969–993.
  • Yin H, Wen G, Hou S, et al. Crushing analysis and multiobjective crashworthiness optimization of honeycomb-filled single and bitubular polygonal tubes. Mater Des. 2011;32(8-9):4449–4460.
  • Paz J, Diaz J, Romera L, et al. Crushing analysis and multi-objective crashworthiness optimization of GFRP honeycomb-filled energy absorption devices. Finite Elem Anal Des. 2014;91:30–39.
  • Liu Q, Mo Z, Wu Y, et al. Crush response of CFRP square tube filled with aluminum honeycomb. Composites Part B. 2016;98:406–414.
  • Hussein RD, Dong R, Lu G, et al. Axial crushing behaviour of honeycomb-filled square carbon fibre reinforced plastic (CFRP) tubes. Compos Struct. 2016;140:166–179.

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