PSI - Issue 60

Sreerag M N et al. / Procedia Structural Integrity 60 (2024) 20–35 Sreerag M N/ Structural Integrity Procedia 00 (2023) 000 – 000

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References B. Nageswara Rao and Acharya, A.R. (1993) “STRUCTURAL INTEGRITY ASSESSMENT ON M250 GRADE MARAGING STEEL PRESSURE VESSELS VIA THE FRACTURE MECHANICS APPROACH. Journal of AERO.SOC. OF INDIA” VOL.45 No.4,308-321, November 1993 . Rao, B.N and Acharya, A.R. (1997) Failure assessment on 34CrMo4 grade steel cylindrical pressure vessels with an axial crack. Int. F. Press. Vessels Pip. 72,157-163 . Newman J.C., Jr. and Raju I.S. (1979), “Analysis of Surface Cracks in Finite Plates Under Tension or Bending Loads”, NASA TP -1578, December. Faupel JH. Yielding and bursting characteristics of heavy walled cylinders. Trans ASME 1956; 78:1031 – 64. Soderberg CR. Interpretation of creep tests on tubes. Trans ASME 1941; 63:737 – 48. Turner LB. The stresses in a thick hollow cylinder subjected to internal pressure. Trans Cambridge Philoso Soc 1910; 21:377 – 96. Nadai A. Plasticity. New York: McGraw-Hill; 1931. Svensson NL. Bursting pressure of cylindrical and spherical vessels. Trans ASME 1958; 80:89 – 96. Christopher, T., Rama Sarma, B. S. V., Govindan Potti, P. K., Nageswara Rao, B., and Sankarnarayanasamy, K., 2002, “A Comparative Study on Failure Pressure Estimations of Unflawed Cylindrical Vessels,” Int. J. Pressure Vessels Piping, 79, pp. 53 – 66.