Analysis of Surface Flaw in Pressure Vessels by a New 3-Dimensional Alternating Method

[+] Author and Article Information
T. Nishioka, S. N. Atluri

Center for the Advancement of Computational Mechanics, Georgia Institute of Technology, School of Civil Engineering, Atlanta, Ga. 30332

J. Pressure Vessel Technol 104(4), 299-307 (Nov 01, 1982) (9 pages) doi:10.1115/1.3264221 History: Received August 10, 1982; Online November 05, 2009


An alternating method, in conjunction with the finite element method and a newly developed analytical solution for an elliptical crack in an infinite solid, is used to determine stress intensity factors for semi-elliptical surface flaws in cylindrical pressure vessels. The present finite element alternating method leads to a very inexpensive procedure for routine evaluation of accurate stress intensity factors for flawed pressure vessels. The problems considered in the present paper are: (i) an outer semi-elliptical surface crack in a thick cylinder, and (ii) inner semi-elliptical surface cracks in a thin cylinder which were recommended for analysis by the ASME Boiler and Pressure Vessel Code (Section III, App. G, 1977). For each crack geometry of an inner surface crack, seven independent loadings, such as internal pressure loading on the cylinder surface and polynomial pressure loadings from constant to fifth order on the crack surface, are considered. From the analyses of these loadings, the magnification factors for the internal pressure loading and the polynomial influence functions for the polynomial crack surface loadings are determined. By the method of superposition, the magnification factors for internally pressurized cylinders are rederived by using the polynomial influence functions to check the internal consistency of the present analysis. These values agree excellently with the magnification factors obtained directly. The present results are also compared with the results available in literature.

Copyright © 1982 by ASME
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