1. James, L.A.: The Effect of Frequency upon the Fatigue-Crack Growth of Type 304 Stainless Steel at 1000 F, Proceedings of the 1971 National Symp. on Fracture Mechanics, Parti, ASTM STP 513 (1972), 218–229.
2. Haigh, J.R., Skelton, R.P., and Richards, CE.: Oxidation-Assisted Crack Growth during High Cycle Fatigue of a 1% Cr-Mo-V Steel at 550°C, Materials Science and Engineering
26 (1976), 167–174.
3. Ellison, E.G., and Harper, M.P.: Creep Behavior of Components Containing Cracks — A Critical Review, Journal of Strain Analysis
13 (1978), 35–51.
4. Smith, DJ., and Ellison, E.G.: Modelling Crack Growth for Creep and Fatigue Loading, International Journal of Pressure Vessels and Piping
50 (1992), 231–241.
5. Ontani, R., Yamada, K., Kashiwagi, T., and Matsubara, H.: Crack Propagation of 304 Stainless Steel in Low Cycle Fatigue at Elevated Temperature, Transactions of the Japan Society of Mechanical Engineers (in Japanese) 48 A (1982), 1378–1390.