References
- ABS. 2006. Rules for building and classing steel vessels. Houston, USA: American Bureau of Shipping.
- Davis MR, Whelan JR. 2007. Computation of wet deck bow slam loads for catamaran arched cross sections. Ocean Eng. 34(17):2265–2276.
- Duan F. 2011. Research on slamming response technology of trimaran. [Master’s degree]. China, Harbin: Harbin Engineering University.
- Huang NE, Shen Z, Long SR, et al. 1988. The empirical mode decomposition and the Hilbert spectrum for nonlinear and non-stationary time series analysis. Proc Math Phys Eng Sci. 454(1971):903–995.
- Kamath A, Bihs H, Arntsen BA. 2017. Study of water impact and entry of a free falling wedge using computational fluid dynamics simulations. J Offshore Mech Arctic Eng. 139(3):031802–031802.6.
- Kawakami M, Michimoto J, Kobayashi K. 1977. Prediction of long-term whipping vibration stress due to slamming of large full ship in rough seas. Int Shipbuild Prog. 24:83–110.
- Lavroff J, Davis MR, Holloway DS, et al. 2013. Wave slamming loads on wave-piercer catamarans operating at high-speed determined by hydro-elastic segmented model experiments. Mar Struct. 33(5):120–142.
- Li H, Deng BL, Zou J, Dong CR, Liu CL, Liu PL. 2021. Experimental free-drop test investigation into wet-deck slamming loads on a generic trimaran section considering the influence of main hull profile. Appl Ocean Res. 242:110114.
- Liao XY, Chen ZY, Gui HB, Du MC. 2021. CFD prediction of ship seakeeping and slamming behaviors of a trimaran in oblique regular waves. J Mar Sci Eng. 9(10):1151.
- Lind SJ, Stansby PK, Rogers BD, et al. 2015. Numerical predictions of water-air wave slam using incompressible-compressible smoothed particle hydrodynamics. Appl Ocean Res. 49:57–71.
- Lloyd’s Register. 2012. Rules and regulations for the classification of naval ships. London: Lloyd's Register Rules and Regulations.
- Lloyd’s Register of Shipping. 2016. Rules for the classification of trimarans. London: Lloyd's Register Rules and Regulations.
- Ochi MK, Motter LE. 1973. Prediction of slamming characteristics and hull response for ship design. Transactions SNAME. 81:144–176.
- Xia QQ, Chen ZJ, Li KJ. 2011. Dynamic response of SWATH under slamming loads. J Shock Vib. 30(6):208–212.
- Sun Z, Deng YZ, Zou L, Jiang YC. 2020. Investigation of trimaran slamming under different conditions. Appl Ocean Res. 104:102316.
- Swidan A, Thomas G, Ranmuthugala D, Amin W, Penesis I, Allen T, Battley M. 2016. Experimental drop test investigation into wetdeck slamming loads on a generic catamaran hullform. Ocean Eng. 117:143–153.
- Tian XM, Ma XL, Zhu QC, et al. 2017. Numerical analysis of ship slamming loads using the equivalent static method. J Harbin Eng Univ. 38(3):331–337.
- Wang H. 2010. Slamming load determination in local structure design of ships. Sh Build China. 51(2):68–77.
- Wang H, Gu XK, Qi ER, et al. 2010. The equivalent design pressure of ship frame structures under bottom slamming loads. Ship Sci Technol. 32(3):10–15.
- Wang Q, Yu PY, Fan GJ, Li GZ. 2021. Experimental drop test investigation into cross deck slamming loads on a trimaran. Appl Ocean Res. 240:109999.
- Wen ZF. 2010. A computational method for slamming loads of ship [Master’s Degree]. China, Harbin: Harbin Engineering University.
- Wu JX, Sun Z, Jiang YC, Zhang GY, Sun TZ. 2021. Experimental and numerical study of slamming problem for a trimaran hull. Ships Offsh Struct. 16(1):46–53.
- Yan R, Monaghan JJ, Valizadeh A, Xu F. 2015. The effect of air on solid body impact with water in two dimensions. J Fluids Struct. 59:146–164.
- Zong Z, Sun YF, Jiang YC, Sun TZ, Yu YQ. 2020. Evolution of slamming load and flow field in water-entry process of trimaran ship section. Ocean Eng. 205(1):107319.