References
- ‘ITER Conceptual Design Report’, IAEA/ITER/DS/18, IAEA, Vienna, Feb 1991.
- N. Mitchell, L. Bottura, ‘Superconductors for the NET Coils’, Fusion Eng. and Design, 15, Oct 1991, p. 85–100.
- J.C. Newman Jr. and I.S. Raju, ‘Stress Intensity factors for Cracks in 3D Finite Bodies’ ASTM STP 791, 1983, pp. 1238–265.
- D.P. Rooke and D.J. Cartwright, ‘Compendium of Stress Intensity Factors’, HMSO, London 1976.
- I.S. Raju and J.C. Newman Jr., ‘Stress Intensity Factors for Circumferential Surface Cracks for Pipes and Rods under Tension and Bending’, ASTM STP 905, 1986, pp. 323–330.
- H. Ezzat and F. Erdogan, ‘Elastic-Plastic Fracture of Cylindrical Shells Containing a Part-Through Circumferential Crack’, J. Pres. Ves., TRANS ASME, 1982, Vol 104, pp. 789–805.
- C.B. Buchalet and W.H. Bamford, ‘Stress Intensity Factor Solutions for Continuous Surface Flaws in Reactor Pressure Vessels’, ASTM STP 590, 1976, pp. 385–402.
- R. Labbens et al, ‘Practical Methods for Calculating Stress Intensity Factors through Weight Functions’, ASTM STP 590, 1976, pp. 368–384.
- O.L. Bowie and C.E. Freese, Eng.Fract. Mech., ‘Elastic Analysis for a Radial Crack in a Circular Ring’, Vol 4, 1972, pp. 315–321.
- V. Kumar et al, ‘Elastic-Plastic and fully Plastic Analysis of Crack Initiation and Stable Growth and Instability in Pressurized Cylinders’ ASTM STP 803, 1983, pp. 1306–353.
- D. M. Parks, ‘The virtual crack extension method for nonlinear material behaviour’, Computer Methods in Applied Mechanics and Engineering, Vol. 12, pp. 353–364, 1977.