To accurately characterize plastic yield behavior of metals in multiaxial stress states, a new yield theory, i.e., the average shear stress yield (ASSY) theory, is proposed in reference to the classical Tresca and von Mises yield theories for isotropic hardening materials. Based on the ASSY theory, a theoretical solution for predicting the burst pressure of pipelines is obtained as a function of pipe diameter, wall thickness, material hardening exponent, and ultimate tensile strength. This solution is then validated by experimental data for various pipeline steels. According to the ASSY yield theory, four failure criteria are developed for predicting the burst pressure of pipes by the use of commercial finite element softwares such as ABAQUS and ANSYS, where the von Mises yield theory and the associated flow rule are adopted as the classical metal plasticity model for isotropic hardening materials. These failure criteria include the von Mises equivalent stress criterion, the maximum principal stress criterion, the von Mises equivalent strain criterion, and the maximum tensile strain criterion. Applications demonstrate that the proposed failure criteria in conjunction with the ABAQUS or ANSYS numerical analysis can effectively predict the burst pressure of end-capped line pipes.
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November 2007
Research Papers
Theoretical and Numerical Predictions of Burst Pressure of Pipelines
Brian N. Leis
Brian N. Leis
Mem. ASME
Battelle Memorial Institute
, 505 King Avenue, Columbus, OH 43221
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Xian-Kui Zhu
Brian N. Leis
Mem. ASME
Battelle Memorial Institute
, 505 King Avenue, Columbus, OH 43221J. Pressure Vessel Technol. Nov 2007, 129(4): 644-652 (9 pages)
Published Online: February 22, 2007
Article history
Received:
October 6, 2006
Revised:
February 22, 2007
Citation
Zhu, X., and Leis, B. N. (February 22, 2007). "Theoretical and Numerical Predictions of Burst Pressure of Pipelines." ASME. J. Pressure Vessel Technol. November 2007; 129(4): 644–652. https://doi.org/10.1115/1.2767352
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