Baltussen, J.J.M., Northolt, M.G.: The viscoelastic extension of polymer fibres: creep behaviour. Polymer 42, 3835–3846 (2001)
Cali, C., Crcri, Q., Perrella, M.: An advanced creep model allowing for hardening and damage effects. Int. J. Exp. Mech. 46, 347–357 (2010)
Casey, N.F., Banfield, S.J.: Factors affecting the measurement of axial stiffness of polyester deepwater mooring rope under sinusoidal loading. In: Proc. 35th Annual Offshore Technol. Conf., Paper OTC 17068, Houston, USA (2003)
Casey, N.F., Belshaw, R., Paton, A.G., Hooker, J.: Short- and long-term property behaviour of polyester rope. In: Proc. 32nd Annual Offshore Technol. Conf., Paper OTC 12177, Houston, USA (2000)
Chailleux, E., Davies, P.: Modelling the non-linear viscoelastic and viscoplastic behaviour of aramid fibres yarns. Mech. Time-Depend. Mater. 7, 291–303 (2003)
Chailleux, E., Davies, P.: A non-linear viscoelastic viscoplastic model for the behaviour of polyester fibres. Mech. Time-Depend. Mater. 9, 147–160 (2005)
da Costa Mattos, H.S., Chimisso, F.E.G.: Modelling creep tests in HMPE fibres used in ultra-deep-sea mooring ropes. Int. J. Solids Struct. 48(1), 144–152 (2011)
Davies, P., Lechat, C., Bunsell, A., Piant, A., et al.: Deepwater moorings with high stiffness polyester and PEN fiber ropes. In: Proc. 40th Annual Offshore Technol. Conf., Paper OTC 19315, Houston, USA (2008)
Huang, T.Q., Chen, M., Xiao, Y.Z.: Study of kinetic synchronous theory on space docking locking system. J. Syst. Simul. 1, 13–16 (2011)
Huang, W., Liu, H.X., Lian, Y.S., Li, L.N.: Modeling nonlinear creep and recovery behaviors of synthetic fiber ropes for deep water moorings. Appl. Ocean Res. 39, 113–120 (2012)
Jahed, H., Bidabadi, J.: An axisymmetric method of creep analysis for primary and secondary creep. Int. J. Press. Vessels Piping 80(9), 597–606 (2003)
Josef, B.: Creep Mechanics. Springer, Berlin (2003)
Kmet, S., Tomko, M., Brda, J.: Time-dependent analysis and simulation-based reliability assessment of suspended cables with rheological properties. Adv. Eng. Softw. 38, 561–575 (2007)
Li, J.G., Xu, C.T., Yao, Y.X., et al.: Predicting synchronous accuracy of the wire sheave drives. Precis. Eng. 39(1), 261–269 (2015)
Mu, X.Y.: Creep Mechanics. Xi’an Jiaotong University Press, Xi’an (1990)
Oman, S., Nagode, M.: Observation of the relation between uniaxial creep and stress relaxation of filled rubber. Mater. Des. 60, 451–457 (2014)
Stanislav, K., Marek, M.: Time-dependent analysis of cable domes using a modified dynamic relaxation method and creep theory. Comput. Struct. 125, 11–22 (2013)
Tahar, A., Kim, M.H.: Coupled-dynamic analysis of floating structures with polyester mooring lines. Ocean Eng. 35, 1676–1685 (2008)
Tang, W., Li, M., Wen, M.P., et al.: PBX creep model based on modified time hardening theory. Chin. J. Energ. Mater. 16(1), 34–36 (2008)
Wang, S.H., Yang, D.Z., He, S.Y., Lu, G.: Tensile deformation behavior of 1Cr18Ni9Ti steel at low temperatures. Mater. Sci. Technol. 12(6), 579–582 (2004)
Wu, H.H., Guo, Z.M.: Research on mechanism and constitutive equation of creep about 1Crl8Ni9Ti stainless steel wire. In: Proc. 2006, Wire Products Technol. Conf., pp. 133–136. Chinese Society for Metals, Beijing (2007)
Wu, J., Wang, D.Y., Qiao, M.J.: The thermo mechanical treatment improving high temperature strength and research on mechanism of steel 1Cr18Ni9Ti. J. Changsha Commun. Univ. 14(1), 31–38 (1998)
Zhang, H., Xiao, Y.Z., Chen, M., et al.: Study on synchronization of space docking mechanism’s docking lock. J. Astronaut. 1, 310–314 (2009a)
Zhang, Y.Q., Bai, H.M., Liu, Z.: Synchronous analysis of the wire cable flexibility transformation between the structure latches. Manned Spaceflight 3, 59–64 (2009b)