The paper considers three different pressure system components—a nozzle in a torisphere subjected to moment loading, a piping branch junction subjected to out-of-plane moment loading and an unpierced torispherical head under pressure loading. The results from non-linear, finite element, stress analyses are used to compare the limit and plastic loads obtained using the ASME III twice-elastic-slope and the CEN TC54 tangent intersection definitions. The results highlight the difficulties involved in quantifying limit loads and plastic loads for such components.
ASME Boiler and Pressure Vessel Code, 1995, Sec. Ill, Division 1, Subsec. NB, Sec. NB-3213 (American Society of Mechanical Engineers, New York).
2.
Draft European Standard, prEN 13445–3, Unfired Pressure Vessels, Part 3, Design, 1999, Annex B, Sec. B9 (CEN).
3.
GerdeenJ. C.A critical evaluation of plastic behaviour data and a unified definition of plastic loads for pressure components. PVRC Welding Research Council bulletin 254, Sec. 16, 1979 (American Society of Mechanical Engineers, New York).
4.
KirkwoodM. G.MoffatD. G.Plastic collapse loads for branch pipe junctions subjected to combined pressure and in-plane moment loadsProc. Instn Mech. Engrs, Part E, Journal of Process Mechanical Engineering, 1994, 208 (E1), 31–43.
Hibbit, Karlsson and Sorensen Inc.Abaqus/Standard-Abaqus/ Post User Manuals, versions 5 and 6, 1996 (Rhode Island).
7.
LynchM. A.MoffatD. G.MoretonD. N.Limit loads for cracked piping branch junctions under pressure and branch out-of plane bendingInt. J. Pressure Vessels Piping, 2000, 77 (4), 185–194.
8.
The Design-by-Analysis Manual, EUR 19020 EN, Section 1.3, 1999 (European Pressure Equipment Research Council, European Commission Joint Research Centre).