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2024 | OriginalPaper | Buchkapitel

Underwater Explosion Damage Mechanisms and Protection of Double-Hull Under Shaped Charge

verfasst von : Jingyuan Zhang, Hailong Li, Longkan Wang, Zhifan Zhang

Erschienen in: Proceedings of 2023 the 6th International Conference on Mechanical Engineering and Applied Composite Materials

Verlag: Springer Nature Singapore

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Abstract

In order to improve the anti-shock performance of underwater target, composite materials have been widely used. A numerical model of near-field underwater explosions associated with shaped charges was developed based on the Coupled Eulerian-Lagrangian (CEL) method. The damage modes of composite Q235 steel/SiC ceramic/UHMWPE sandwich plates were compared. According to material properties, a new composite sandwich plate was proposed-Q235 steel/UHMWPE/SiC ceramic/UHMWPE composite sandwich plate. The effect of different material mass ratios on the protective effect of composite sandwich plates was analyzed. The results show that new composite sandwich plate underwater explosion impact resistance, anti-projectile performance greatly improved. The composite sandwich plate with proper mass ratio has superior resistance to shaped charge underwater explosion. Composite sandwich plate with faceboard UHMWPE 48.06 mm, SiC ceramic 14.63 mm and backboard UHMWPE 48.06 mm is the most effective. This pressure hull has the greatest decrease in head velocity of metal jet. The as above results can provide a reference for naval construction of pressure hull for underwater target.

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Zhang, Z., Wang, L., Silberschmidt, V.V.: Damage response of steel plate to underwater explosion: effect of shaped charge liner. Int. J. Impact Eng. 103, 38–49 (2017)CrossRef

Xu, L., Tian, Y., Liu, X., Wang, S.: Numerical investigation on jet penetration capacity of hypervelocity shaped charge in underwater explosion. Ocean Eng. 281, 114668 (2023)CrossRef

Huang, S., Jin, Z., Chen, Y.: Underwater blast resistance of double cylindrical shells with circular tube stiffeners. Ocean Eng. 238, 109691 (2021)CrossRef

Liu, J., An, F., Niu, Z., Zhang, L., Feng, B., Li, Y., Wu, C.: Study on the blast-resistance of polyurea-steel plates subjected to underwater explosion. Ocean Eng. 265, 111814 (2022)CrossRef

He, Z., Du, Z., Zhang, L., Li, Y.: Damage mechanisms of full-scale ship under near-field underwater explosion. Thin-Walled Struct. 189, 110872 (2023)CrossRef

Gao, H., Tian, H., Gao, X.: Damage characteristics of cabin in navigational state subjected to near-field underwater explosion. Ocean Eng. 277, 114256 (2023)CrossRef

Mao, W., Zhong, M., Xie, X., Ma, H., Yang, G., Fan, L.: Research on the dynamic response of pressurized cylindrical shell structures subjected to a near-field underwater explosion. AIP Adv. 13(2), 25046 (2023)CrossRef

Ma, W., Zhao, X., Gilbert, C., Wang, K.: Computational analysis of bubble-structure interactions in near-field underwater explosion. Int. J. Solids Struct. 242, 111527 (2022)CrossRef

Peng, Y., Zhang, A., Ming, F.: Numerical Simulation of structural damage subjected to the near-field underwater explosion based on SPH and RKPM. Ocean Eng. 222, 108576 (2021)CrossRef

10.

Tong, S., Wang, S., Yan, S., Li, S.: Fluid–structure interactions between a near-field underwater explosion bubble and a suspended plate. AIP Adv. 12(9) (2022)

11.

Li, H., Zheng, X., Zhang, C., Mei, Z., Bai, X., Liu, K.: Sagging damage characteristics of hull girder with trapezoidal cross-section subjected to near-field underwater explosion. Def. Technol. 21, 1–13 (2023)CrossRef

12.

Langrand, B., Leconte, N., Menegazzi, A., Millot, T.: Submarine hull integrity under blast loading. Int. J. Impact Eng 36(8), 1070–1078 (2009)CrossRef

13.

Deng, Y., Jiang, H., Ren, Y.: Low-velocity impact resistance behaviors of bionic double-helicoidal composite laminates. Int. J. Mech. Sci. 248, 108248 (2023)CrossRef

14.

Hoseinlaghab, S., Farahani, M., Safarabadi, M.: Improving the impact resistance of the multilayer composites using nanoparticles. Mech. Based Des. Struct. Mach. 51(6), 3083–3099 (2023)CrossRef

15.

Chandler, M.Q., Sherburn, J.A., Allison, P.G., Moser, R.D., Torres-Cancel, K.A., Williams, B.A., Newman, J.K., Weiss, C.A.: Application of bio-inspired nanocomposites for enhancing impact resistance of cementitious materials. Int. J. Impact Eng. 110, 171–180 (2017)CrossRef

16.

Yang, K., Rao, L., Hu, L., Pan, F., Yin, Q., Chen, Y.: Flexible, efficient and adaptive modular impact-resistant metamaterials. Int. J. Mech. Sci. 239, 107893 (2023)CrossRef

17.

Shen, Z., Hu, D., Yang, G., Han, X.: Ballistic reliability study on SiC/UHMWPE composite armor against armor-piercing bullet. Compos. Struct. 213, 209–219 (2018)CrossRef

18.

Shen, Z., Hu, D., Zhang, Y., Cai, Q., Han, X.: Continuous twice-impacts analysis of UHMWPE laminate fixed with bolted joints. Int. J. Impact Eng. 109, 293–301 (2017)CrossRef

19.

Hu, P., Cheng, Y., Zhang, P., Liu, J., Yang, H., Chen, J.: A metal/UHMWPE/SiC multi-layered composite armor against ballistic impact of flat-nosed projectile. Ceram. Int. 47(16), 22497–22513 (2021)CrossRef

20.

Ramezani, A., Rothe, H.: Investigation of simulation methodologies for ultra-high-molecular-weight polyethylene. Int. J. Saf. 8(1), 159–170 (2018)CrossRef

21.

Quan, X., Clegg, R.A., Cowler, M.S., Birnbaum, N.K., Hayhurst, C.J.: Numerical simulation of long rods impacting silicon carbide targets using JH-1 model. Int. J. Impact Eng. 33(1–12), 634–644 (2006)CrossRef

22.

Zhang, Z., Li, H., Wang, L., Zhang, G., Zong, Z., Zhang, S.: Protection mechanism of underwater double-hull coated with UHMWPE subjected to shaped charge. Ocean Eng. 272, 113842 (2023)CrossRef

23.

E, Z.J., Duan, Z.P., Zhang, X.W., Ou, Z.C., uang, F.L.: Research on high-density titanium alloy shaped charge liner (in Chinese). Acta Armamentarii (s2), 22–26 (2014)

Titel: Underwater Explosion Damage Mechanisms and Protection of Double-Hull Under Shaped Charge
verfasst von: Jingyuan Zhang
Hailong Li
Longkan Wang
Zhifan Zhang
Verlag: Springer Nature Singapore
Buch: Proceedings of 2023 the 6th International Conference on Mechanical Engineering and Applied Composite Materials
Print ISBN: 978-981-9716-77-7

Electronic ISBN: 978-981-9716-78-4

Copyright-Jahr: 2024
DOI: https://doi.org/10.1007/978-981-97-1678-4_6

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