References
- Williamson J, Wickens A, Draper JHM. Some long-term evidence supporting the constant stress accelerated temperature method of extrapolating creep-rupture data. Arch Eisenhuttenwesen. 11 Nov 1977;48.
- Robinson EL. Effect of temperature variation on the long-time rupture strength of steels. Trans ASME. 1952;74:777–780.
- Viswanathan R. Damage mechanisms and life assessment of high-temperature components ASM International, Ohio, 1989
- Stigh U. Continuum damage mechanics and the life-fraction rule. J App Mech. July 2006;73(4):702–704.
- Hart EW, Li Y, Yamada H, et al. In: Argon AS, Editor. Constitutive equations in plasticity. MIT Press; 1975. p. 149.
- Woodford DA. The design for performance concept applied to life management of gas turbine blades. Conf Baltica III, Helsinki, 1995. VTT Symposium 150, pp. 319–332, Espoo, 1995.
- Brear JM. Unpublished work performed at the central electricity research laboratories, Leatherhead, 1973–1985. Referenced with thanks to the CEGB successor companies.
- Brear JM, Jarvis P. ‘Living with creep damage … outside the creep range’ Baltica 7 ‘Life management and maintenance for power plants’, Helsinki, VTT Symposium 246/247, Espoo, Vol. 2 pp. 50-64, 12-14 June 2007. Energy Materials, Vol 2, No 2, pp. 109–116, 2007.
- Nechtelberger E, Kreitner F, Krainer E. Contribution of the rapid determination of the high temperature creep behaviour of steel using the method of Rajacovics. Conf ‘The Properties of Creep resistant Steels’. Dusseldorf, 1972.
- Steen M. Creep life assessment by slow strain rate tensile testing. Int J Pres Ves Piping. 1983;14(4):201–225.
- Steen M. Private communication, 1987.
- Bueno LO, Sobrinho JFR. Correlation between creep and hot tensile behaviour for 2.25Cr-1Mo steel from 500°C to 700°C Part 1. Matéria (Rio de Janeiro). 2011 December;17(3):1098–1108.
- Brear JM, Aplin PF, Timmins R. ‘The effect of primary creep on the Kachanov-Rabotnov model - results on 0.5CrMoV, 1CrMo, and Type 316 steels’ Conf ‘Behaviour of defects at high temperatures’ Sheffield 1992. In: Ainsworth RA, Skelton RP, editors. ESIS publication 15. London: Mechanical Engineering Publications; 1993. pp. 401–422.
- Kachanov LM. Time to rupture under creep conditions. Izv. Akad.Navk. SSSR, Otd. Tekh. Nauk., 8, pp. 26–31, 1958.
- Kachanov LM. The theory of creep ( first published in Russian, 1960, translated by E Bishop) National Lending Library for Science and Technology, Boston Spa, 1967.
- Kachanov LM. An introduction to continuum damage mechanics. The Netherlands: Kluwer Academic Publishing; 1990.
- Othman AM, Hayhurst DR. Multiaxial creep rupture of a model structure using a two-parameter materials model. Int J Met Sci. 1990;32(1):35–48.
- Rabotnov YN. Creep problems in structural members. The Netherlands: North Holland Publishing Co.; 1969.
- Ramberg W, Osgood WR. Description of stress–strain curves by three parameters. Technical Note No. 902, National Advisory Committee for Aeronautics, Washington DC, 1943.
- Hollomon JR. Tensile deformation Trans AIME. 1945. Vol. 162. pp. 268–277.
- Considère A. Annales des Ponts et Chaussées 9. 1885. pp. 574–775.
- Belov PA, Golovina NY. Generalization of the Ramberg–Osgood model for elastoplastic materials. J Mat Eng Perform. online, 3 Dec 2019.
- Lian J, Chen J. Plastic instability and strain to fracture for damaged materials. Mater Sci Eng. 1991;A131:9–15.