PSI - Issue 38

Di Song et al. / Procedia Structural Integrity 38 (2022) 546–553 Di Song and Chao Yu / Structural Integrity Procedia 00 (2021) 000–000

552

7

Acknowledgements Financial supports by the National Natural Science Foundation of China (11702060, 11532010, 11602203), State Key Laboratory Foundation for Strength and Vibration of Mechanical Structures (SV2018-KF-14), Scientific Research Foundation of the Sichuan Provincial Department of Science and Technology (2020YFSY0015), and Guangdong Basic and Applied Basic Research Foundation (No.2019A1515011319) are gratefully acknowledged. References Dunand-Châtellet C, Moumni Z. Experimental analysis of the fatigue of shape memory alloys through power-law statistics. Int J Fatigue 2012; 36(1):163-70. Eggeler, G., Hornbogen, E., Yawny, A., Hechmann, A., Wagner, M., 2004. Structural and functional fatigue of NiTi shape memory alloys. Mater. Sci. Eng. A 378, 24-33. Gall, K., Maier, H.J., 2002. Cyclic deformation mechanisms in precipitated NiTi shape memory alloys. Acta Mater. 50, 4643-4657. Gall, K., Sehitoglu, H., Anderson, R., Karaman, I., Chumlykov, Y.I., Kireeva, I.V., 2001. On the mechanical behavior of single crystal NiTi shape memory alloys and related polycrystalline phenomenon. Mater. Sci. Eng. A 317, 85-92. Kang, G.Z., Kan. Q.H., Qian, L.M., Liu, Y.J., 2009. Ratchetting deformation of super-elastic and shape-memory NiTi alloys. Mech. Meter. 41, 139-153. Kang, G.Z., Kan, Q.H., Yu, C., Song, Di., Liu Y.J., 2012. Whole-life transformation ratchetting and fatigue of super-elastic NiTi Alloy under uniaxial stress-controlled cyclic loading. Mater. Sci. Eng. A 535, 228-234. Liu, Y., Xie, Z., Humbeeck, J.V., 1999. Cyclic deformation of NiTi shape memory alloys. Mater. Sci. Eng. A 273-275, 673-678. Mahtabi MJ, Shamsaei N. Multiaxial fatigue modeling for Nitinol shape memory alloys under in-phase loading. J Mech Behav Biomed Mater 2015 ; 55:236-249. Maletta C, Sgambitterra E, Furgiuele F, Casati R, Tuissi A. Fatigue properties of a pseudoelastic NiTi alloy: Strain ratcheting and hysteresis under cyclic tensile loading. Int J Fatigue 2014; 66:78-85. Nasser, S.N., Guo, W.G., 2006. Superelastic and cyclic response of NiTi SMA at various strain rates and temperatures. Mech. Meter. 38, 463-474. Predki, W., Kloenne, M., Knopik, A., 2006. Cyclic torsional loading of pseudoelastic NiTi shape memory alloys: Damping and fatigue failure Mater. Sci. Eng. A 417, 182-189. Saleeb, A.F., Kumar, A., Padula II, S.A., Dhakal, B., 2013. The cyclic and evolutionary response to approach the attraction loops under stress controlled isothermal conditions for a multi-mechanism based multi-axial SMA model. Mech. Meter. 63, 21-47. Sehitoglu, H., Anderson, R., Karaman, I., Gall, K., Chumlyakov, Y., 2001. Cyclic deformation behavior of single crystal NiTi. Mater. Sci. Eng. A 314, 67-74. Sehitoglu, H., Jun, J., Zhang, X., Karaman, I., Chumlykov, Y., Maier, H.J., Gall, K., 2001. Shape memory and pseudoelastic behavior of 51.5%Ni–Ti single crystals in solutionized and overaged state. Acta Mater. 49, 3609-3620. Sehitoglu, H., Efstathiou, C., Maier, H.J., Chumlykov, Y., 2006. Hysteresis and deformation mechanisms of transforming FeNiCoTi. Mech. Meter. 38, 538-550. Song D, Kang G.Z, Kan Q.H, Yu C, Zhang C.Z. 2014a. Non-proportional multiaxial transformation ratchetting of super-elastic NiTi shape memory alloy: Experimental observations. Mech Mater, 70:94-105. Song D, Kang G.Z, Kan Q.H, Yu C, Zhang C.Z. 2014b. The effect of martensite plasticity on the cyclic deformation of super-elastic NiTi shape memory alloy. Smart Mater Struct, 23(1):015008. Song D, Kang G.Z, Kan Q.H, Yu C, Zhang C.Z. 2015a. Experimental observations on uniaxial whole-life transformation ratcheting and low-cycle stress fatigue of super-elastic NiTi shape memory alloy micro-tubes. Smart Mater Struct, 24:075004. Song D, Kang G.Z, Kan Q.H, Yu C, Zhang C.Z. 2015b. Damage-based life prediction model for uniaxial low-cycle stress fatigue of super-elastic NiTi shape memory alloy micro-tubes. Smart Mater Struct 24:085007. Song D, Kang G.Z, Kan Q.H, Yu C, Zhang C.Z. 2015c. Non-proportional multiaxial whole-life transformation ratchetting and fatigue failure of super-elastic NiTi shape memory alloy micro-tubes. Int J Fatigue, 80:372-80. Song D, Kang G.Z, Kan Q.H, Yu C, Zhang C.Z. 2016. Multiaxial low-cycle fatigue failure mechanism of super-elastic NiTi shape memory alloy micro-tubes. Mater. Sci. Eng. A, 665, 17-25. Song D, Kang G.Z, Kan Q.H, Yu C, Zhang C.Z. 2017a, Effects of peak stress and stress amplitude on multiaxial transformation ratchetting and fatigue life of superelastic NiTi SMA micro-tubes: Experiments and life-prediction model. Int J Fatigue; 96:252-260. Song D, Kang G.Z, Yu C , Kan Q.H, Zhang C.Z. 2017b, Non-proportional multiaxial fatigue of super-elastic NiTi shape memory alloy micro tubes: Damage evolution law and life-prediction model, Int J Mech. Sci. 131, 325-333. Song D, Yu C, Kang G.Z , Kan Q.H, Zhang C.Z. 2019,Torsional whole-life transformation ratchetting under pure-torsional and non-proportional multiaxial cyclic loadings of NiTi SMA at human-body temperature: Experimental observations and life-prediction model, J Mech Behav Biomed, 94, 267-278. Strnadel, B., Ohashi, S., Ohtsuka, H., Ishihara, T., Miyazaki, S., 1995a. Cyclic stress-strain characteristics of Ti-Ni and Ti-Ni-Cu shape memory alloys. Mater. Sci. Eng. A 202, 148-156.