The ultimate ductile state model for a pipe with an axial through crack

Оrynyak, І. V.; Torop, V. M.

doi:10.1007/bf00036477

Int J Fract

1996

DOI: 10.1007/bf00036477

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The ultimate ductile state model for a pipe with an axial through crack

І. V. Оrynyak

V. M. Torop

Abstract: A statistically admissible solution has been constructed for a pipe with an axial through crack. The boundaries of the limit region have been obtained and the strength conditions on its boundary have been formulated. The extension of the distribution of forces and moments beyond the limit region boundary has been substantiated. The results obtained for a pipe with closed ends are in fair agreement with the experimental data. The influence of the axial force and the property anisotropy upon the fracture stress … Show more

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Cited by 10 publications

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“…Apparently, it is impossible to modify these formulas experimentally in order to estimate strength with a greater number of input parameters (different types of cracks, the presence of additional axial stresses in a pipe, the consideration of the third dimension (width) in a defect under study, close location of defects, etc.). In our opinion, just a theoretical analysis can prompt the required solutions [6][7][8][9].The worst situation has arisen with defects of the dent type. Normative documents used for their analysis are based sooner on the subjective perceptions of the designers than on a detailed consideration.…”

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confidence: 97%

Residual strength of pipelines with dents

Оrynyak¹,

Rozhonyuk²,

Shlapak³

1999

Mater Sci

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We show the urgency of developing methods for prediction of the ultimate load of ductile fracture for defects of the dent type in pipelines. We propose an idealized model of the limiting plastic state of a pipe with infinite dent along it. We obtain formulas for engineering calculations and analyze them.Present-day methodologies of evaluation of the strength of very plastic materials [ 1,2] demand that one carry out calculations by the methods of limit equilibrium. However, the evaluation of defects in pipelines is still based on empirical approaches. The well-known formulas for axial surface and through cracks in pipes [3] were proposed at the end of the 60s for atomic power engineering. These formulas were taken as a basis of criteria of acceptability for oil and gas pipelines with corrosion defects [4]. Theoretical analysis with the help of the methods of limit equilibrium [5,6] showed that these formulas are rather efficient although, in our opinion, they give a conservative estimate in the case of very deep surface defects. The efficiency of formulas [3] can be attributable to the use of a vast amount of experimental data for their construction and a small number of parameters (input data) affecting the limiting state. Apparently, it is impossible to modify these formulas experimentally in order to estimate strength with a greater number of input parameters (different types of cracks, the presence of additional axial stresses in a pipe, the consideration of the third dimension (width) in a defect under study, close location of defects, etc.). In our opinion, just a theoretical analysis can prompt the required solutions [6][7][8][9].The worst situation has arisen with defects of the dent type. Normative documents used for their analysis are based sooner on the subjective perceptions of the designers than on a detailed consideration. It is sufficient to note that the formulas for calculation of dents accepted by the British Gas and Shell corporations and by the American Petroleum Institute give discrepant results [10,11 ]. Methods of calculation of dents accepted in the CIS [12] are based on the concept of theoretical stress-concentration factor. However, such an approach is incorrect, because the well-known expert Peterson [13] as early as at the beginning of the 70s emphasized that such approaches are unfit for the static analysis of plastic steels. In all basic documents of the oil and gas industry of the former USSR, the expediency of analysis according to limiting states (instead of ultimate stresses) is declared [14]. Obviously, numerical calculations of dents by the methods of plasticity theory cannot be widely used in engineering practice. This is connected, first, with the inapplicability of the used theories of plasticity for large deformations, second, with significant consumptions of computer operating time and memory resources, and, third, with the fact that numerical calculations do not give a qualitative comprehension of the danger of defects.The aim of our investigation is to develop a theoreti...

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mentioning

confidence: 97%

Residual strength of pipelines with dents

Оrynyak¹,

Rozhonyuk²,

Shlapak³

1999

Mater Sci

Self Cite

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show abstract

Scientific and technical section

Torop¹

1998

Strength Mater

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Analysis of the limiting plastic state of a thick-walled bent pipe

Оrynyak¹

1998

Strength Mater

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The ultimate ductile state model for a pipe with an axial through crack

Cited by 10 publications

References 9 publications

Residual strength of pipelines with dents

Residual strength of pipelines with dents

Scientific and technical section

Analysis of the limiting plastic state of a thick-walled bent pipe

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