Research Progress of Lattice Shell Structure based on Kagome

Authors

  • Xiaoguang Wang
  • Daoyuan Tang
  • Tongshu Wang
  • Youan Ji

DOI:

https://doi.org/10.54097/ajst.v7i3.13270

Keywords:

Kagome, Lattice Shell structures, Composite materials, Aerospace.

Abstract

The composite material shell structure has the characteristics of light weight, high strength and wide application scenarios, and has been widely used in the aerospace field in recent years. This paper first summarizes the structure, preparation process and mechanical properties of Kagome; secondly, discusses the preparation process, improvement and development of the lattice shell structure and mechanical properties in detail; finally, the application outlook and development direction of the material are forcasted.

Downloads

Download data is not yet available.

References

Deng, J., Cheng, M. (2010). Research on resin formula of cfrp solid rocket engine shell with big dimension for wet winding. Journal of Astronautics, 556-561.

Pei, Y., Yu, X., Xu, H., et al. (2023). Research on flat compression performance of Kagome lattice sandwich structure. Composites Science and Engineering, 05:5-11.

Zhu, X., Yang, Z., Xu, L., et al. (2023). Prediction and experimental verification of crush performance of 3D printed rocket shell Kagome honeycomb reinforced structure. Journal of Jilin University(Science Edition), 01: 154-161.

Xiong, J., Li, Z., Liu, H., et al. (2021). Advances in aerospace lightweight composite shell structure. Acta Materiae Compositae Sinica, 38(6): 1629-1650.

Vasiliev, V., Barynin, V. A., & Rasin, A. F.. (2001). Anisogrid lattice structures - survey of development and application. Composite Structures, 54(2/3): 361-370.

Huybrechts, S., Meink, T. E. (1997). Advanced grid stiffened structures for the next generation of launch vehicles. 1997 IEEE aerospace conference, 1: 263-270.

Li, M., Sun, F., Lai, C., et al. (2018). Fabrication and testing of composite hierarchical isogrid stiffened cylinder. Composites Science & Technology, 157(MAR.22): 152-159.

Wu, H., Lai, C., Sun, F., et al. (2018). Carbon fiber reinforced hierarchical orthogrid stiffened cylinder: fabrication and testing. Acta Astronautica, 145(APR.):268-274.

Mangas, C. B., Vilanova, J., Diaz, V., Samartin, C. R., Kiryenko, S., Katajisto, H., & Perez-Alvarez, J. (2016). Anisogrid payload adaptor structure for Vega launcher. In Proceedings of the 14th European Conference on Spacecraft Structures, Materials and Environmental Testing (ECSSMET), Toulouse, France.

Mack, J., & Mitschang, P. (2013). Challenges for the Manufacturing of a Lattice Structure Fuselage Section With Prepreg Lay-up Technology. In 19th International Conference of Composite Materials Montreal (Vol. 1, p. 2013).

Wu, K. C., Stewart, B. K., Martin, R. A. (2014). ISAAC - A Testbed for Advanced Composites Research. ASC 29.

Müller, J., Brink, W. M. V. D. (2016). Comparison of integrated rib stiffened and L-blade stiffened composite panels manufactured using simple tooling methods. https://www.nlr.nl/

Han, D., Tsai, S.. (2001). Manufacturing and Design of Interlocked Composite Grids. International conference on composite materials.

Qing, Z., Fan, H., Liu,J., et al. (2013). Hierarchical lattice composites for electromagnetic and mechanical energy absorptions. Composites Part B Engineering.

Zhang, Y., Xue, Z., Chen, L., et al. (2009). Deformation and failure mechanisms of lattice cylindrical shells under axial loading. International Journal of Mechanical Sciences, 51(3): 213-221.

Li, M., Lai, C., Zheng, Q., et al. (2020). Multi-failure analyses of carbon fiber reinforced anisogrid lattice cylinders. Aerospace Science and Technology, 105777.

Zhou, T. (2007). Two dimensional grid composite material lattice structure and its stiffness and strength analysis. Thesis of National University of Defense Science and Technology, 101.

Zheng, Q., Ju, S., Jiang, D. (2014). Anisotropic mechanical properties of diamond lattice composites structures. Composite Structures, 109(1): 23-30.

Lai, C., Wang, J., Liu, C., et al. (2015). A flexible tooling and local consolidation process to manufacture 1d lattice truss composite structure. Composites Science & Technology, 113(5): 63-70.

Lai C., Liu C., Wang J.. (2014). Research progress in the manufacturing process of advanced composite material gratings. Mechanical Science and Technology, 33 (12), 6.

Lai, C., Wang, J., Liu, C.. (2014). Parameterized finite element modeling and buckling analysis of six typical composite grid cylindrical shells. Applied Composite Materials, 21(5): 739-758.

Li, M., Sun, F., Lai, C., et al. (2018). Fabrication and testing of composite hierarchical isogrid stiffened cylinder. Composites Science & Technology, 157(MAR.22): 152-159.

Downloads

Published

27-10-2023

Issue

Section

Articles

How to Cite

Wang, X., Tang, D., Wang, T., & Ji, Y. (2023). Research Progress of Lattice Shell Structure based on Kagome. Academic Journal of Science and Technology, 7(3), 161-166. https://doi.org/10.54097/ajst.v7i3.13270