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RESEARCH PAPER

The Effect of D/T on the Load Interaction Behavior of a Plain Pipe

[+] Author and Article Information
Amran Bin Ayob

Faculty of Mechanical Engineering, University of Technology Malaysia, 81310 UTM Skudai, Johor, Malaysia

J. Pressure Vessel Technol 126(4), 518-522 (Dec 01, 2004) (5 pages) doi:10.1115/1.1804197 History: Received May 19, 2003; Revised May 21, 2004; Online December 01, 2004
Copyright © 2004 by ASME
Topics: Stress , Pipes , Pressure , Force , Torsion , Design
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References

Ayob,  A. B., Moffat,  D. G., and Mistry,  J., 1997, “Load Interaction in Pressurised Structures Using the Finite Element Method,” Int. J. Pressure Vessels Piping, 73(1), pp. 3–9.
Godoy,  L. A., Idelsohn,  S. R., and Barbero,  E., 1991, “On Load Interaction in the Non Linear Buckling Analysis of Cylindrical Shells,” Adv. Eng. Software, Elsevier Ltd., UK, 13(1), pp. 46–50.
Hsieh,  M. F., Moffat,  D. G., and Mistry,  J., 2001, “Nozzles in the Knuckle Region of a Torispherical Head: Limit Load Interaction Under Combined Pressure and Piping Loads,” Int. J. Pressure Vessels Piping, 77(13), pp. 807–815.
Finlay,  J. P., Rothwell,  G., English,  R., and Montgomery,  R. K., 2003, “Effective Stress Factors for Reinforced Butt-Welded Branch Outlets Subjected to Internal Pressure or External Moment Loads,” Int. J. Pressure Vessels Piping, 80(5), pp. 311–331.
PATRAN Elsevier Ltd., UK, version 7, 1993-1997; PDA Engineering, Santa Ana, CA.
ASAS-H Version 13, 2004, WS Atkins Engineering Softwares, UK.
European Standard EN 13480-3, 2002, Metallic Industrial Piping: Design and Calculation, CEN European Committee for Standardisation.

Figures

Grahic Jump Location
FEM pipe model fully constrained at one end
Grahic Jump Location
FEM pipe model subjected to internal pressure
Grahic Jump Location
T-P interaction, from FEM, using Tresca criterion
Grahic Jump Location
F-P interaction, from FEM, using Tresca criterion
Grahic Jump Location
M-P interaction, from FEM, using Tresca criterion
Grahic Jump Location
T-P interaction, from FEM, using von Mises criterion
Grahic Jump Location
F-P interaction, from FEM, using von Mises criterion
Grahic Jump Location
M-P interaction, from FEM, using von Mises criterion
Grahic Jump Location
T-P interaction, from FEM and theory, using Tresca criterion, for models PIP1 and PIP4
Grahic Jump Location
M-P interaction, from FEM and theory, using Tresca criterion, for models PIP1 and PIP4
Grahic Jump Location
T-P interaction, from FEM and theory, using von Mises criterion, for models PIP1 and PIP4
Grahic Jump Location
M-P interaction, from FEM and theory (Tresca criterion) and BS, for models PIP1 and PIP4

Tables

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