References
- Administration FA. Code of federal regulation part 25 airworthiness standards (transports category airplanes): FAR-25 (amendment 25-123). 2007.
- Sealey F. Overload release apparatus for aircraft landing gear or the like[P]. USA: U.S. Patent 4155522. 1979. 5–22.
- Pradhan B, Ray K. Stresses around partial contact pin-loaded holes in FRP composite plates[J]. J Reinforced Plastic Compos. 1984;3(1):69–84.
- Hyer MW, Klang EC. Stresses around holes in pin-loaded orthotropic plates[J]. J Aircraft. 1985;22(12):1099–1101.
- SAE International. Crashworthy landing gear design [R]. SAE Aerospace information report, AIR4566TM. 2021.
- Grant RJ, Smart J. Crack growth in pin-loaded Tubes-Part 1: numerical analysis[J]. J Strain Anal Eng Des. 1999;34(4):253–269.
- Ju SH, Rowlands RE. A three-dimensional frictional stress analysis of double-shear bolted wood joints[J]. Wood Fiber Sci J Soc Wood Sci Tech. 2001;33(4):550–563.
- Mellor ML, Reitz CA. Apparatus and method for predictable movement of structural components during failure USA: U.S. Patent 7066429. 2006. 6–27.
- Smith M, Fisher F, Romios M, et al. On the redesign of a shear pin under cyclic bending loads[J]. Eng Fail Anal. 2007;14(1):138–146.
- Grant RJ, Flipo BCD. Parametric study of the elastic stress distribution in pin-loaded lugs modelled in two and three dimensions and loaded in tension[J]. J Strain Anal Engng Design. 2009;44(6):473–489.
- Sundaram N, Farris TN. Mechanics of advancing pin-loaded contacts with friction[J]. J Mech Phy Solid. 2010;58(11):1819–1833.
- Bin X, Nan C. Frictional contact analysis and experiment study of complex mechanism with pinned connections[J]. Finite Elements Anal Design. 2011;47(2):142–150.
- Chen G, Yang J, Sergeev A, et al. Modeling and simulation for coupled crash mechanics and biomechanics of aircraft structures and passengers. Commun Nonlinear Sci Numer Simul. 2021;101(3):105850.
- Jin Z, Li D, Xiang J. Crash simulation of fuselage section in the rebound process and the secondary-impact process. AEAT. 2020;92(8):1245–1256. ahead-of-print.
- Bronstein M, Feldman E, Vescovini R, et al. Assessment of dynamic effects on aircraft design loads: the landing impact case. Prog Aerospace Sci. 2015;78(OCT):131–139.
- Wang H, Wu D, Wang F. A new method for determining horizontal impact load based on rotational speed of aircraft wheel in landing gear drop test. MATEC Web Conf. 2017;114:03004.
- Li S, Duan Q, Cao D, et al. Calculation of landing crash load of civil aircraft wheel retracted. Chinese J Appl Mech. 2018;35(5):1008–1014 + 1183.
- Liu X, et al. Civil aircraft fuselage section and cabin facilities crash test and structural fallability evaluation. J Aero. 2013;34(9):2130–2140.
- Malcher L, Pires F, de Sá J. An assessment of isotropic constitutive models for ductile fracture under high and low stress triaxiality. Intern J Plasticity. 2012;30–31:81–115.
- Bragov A, Konstantinov A, Lomunov A, et al. Experimental and numerical analysis of high strain rate response of ti-6al-4v titanium alloy. Toxicon Official J Intern Soc Toxin. 2009;1465–1470.
- Zhou G, Hua L, Qian D, et al. Effects of axial rolls motions on radial–axial rolling process for large-scale alloy steel ring with 3D coupled thermo-mechanical FEA. Intern J Mech Sci. 2012, 2012;59(1):1–7.
- Tanaka M, Miyazawa K. Study on the shear strength of double shear test of bolt joint with steel plate: proposal of the calculation formula of yield and ultimate strength considering the end and edge distance. Trans AIJ. 2005;70(589):143–148.
- Jin Z, Zhou J, Li D. Finite element simulations of dynamic shear fracture of hollow shear pins. Intern J Aero Engng. 2021;2021:1–5966.
- Aldhabib F, Sun XD, Alsumait A, et al. Effect of heat treatment on microstructure and mechanical properties of 15-5 pH stainless steel for fastener applications. DF. 2019;22:118–139.
- Satoh K, Toyoda M, Tsukamoto M, et al. Influence of yield ratio of steels on structural performance. Quarterly J Japan Welding Soc. 1985;3(3):589–595.
- Wang X, Hui Z, Shang C, et al. The microstructure and properties of high performance steels with low yield-to-tensile ratio. J Alloys Compound. 2013;577:S678–-S683.