Evaluation of fatigue-ratcheting damage of a pressurised elbow undergoing damage seismic inputs

We present a simplified method to calculate the plastic ratchet of elbow-shaped pipes submitted to seismic loading and an internal pressure. This method is simplified in the sense that the value of the ratchet is obtained without the use of finite element method (FEM) calculations. Here we derive a...

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Published in	Nuclear engineering and design Vol. 196; no. 1; pp. 41 - 50
Main Authors	Dang Van, K., Moumni, Z.
Format	Journal Article Conference Proceeding
Language	English
Published	Amsterdam Elsevier B.V 01.01.2000 Elsevier
Subjects	Applied sciences Energy Energy. Thermal use of fuels Engineering Sciences Exact sciences and technology Fatigue of materials Finite element method Fission nuclear power plants Installations for energy generation and conversion: thermal and electrical energy Mathematical models Mechanics Pipeline bends Plastic deformation Stainless steel Steel pipe Finite element method Earthquake effect Piping Nuclear power plant Fatigue strength Stainless steel Plasticity Bended pipe Pipe bend Pipe Modeling
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Abstract	We present a simplified method to calculate the plastic ratchet of elbow-shaped pipes submitted to seismic loading and an internal pressure. This method is simplified in the sense that the value of the ratchet is obtained without the use of finite element method (FEM) calculations. Here we derive a formula and use it to evaluate the fatigue-ratcheting damage of an elbow. This approach is applicable to complex plastic response appropriately described by non-linear kinematics hardening, which is more realistic for stainless steel such as 316-L.
AbstractList	We present a simplified method to calculate the plastic ratchet of elbow-shaped pipes submitted to seismic loading and an internal pressure. This method is simplified in the sense that the value of the ratchet is obtained without the use of finite element method (FEM) calculations. Here we derive a formula and use it to evaluate the fatigue-ratcheting damage of an elbow. This approach is applicable to complex plastic response appropriately described by non-linear kinematics hardening, which is more realistic for 316L austenitic stainless steel. We present a simplified method to calculate the plastic ratchet of elbow-shaped pipes submitted to seismic loading and an internal pressure. This method is simplified in the sense that the value of the ratchet is obtained without the use of finite element method (FEM) calculations. Here we derive a formula and use it to evaluate the fatigue-ratcheting damage of an elbow. This approach is applicable to complex plastic response appropriately described by non-linear kinematics hardening, which is more realistic for stainless steel such as 316-L. A simplified method is presented for calculating the plastic ratchet of elbow-shaped pipes submitted to seismic loading and an internal pressure. This method is simplified in the sense that the value of the ratchet is obtained without the use of finite element method (FEM) calculations. In this paper, a formula is derived and used to evaluate the fatigue-ratcheting damage of an elbow. This approach is applicable to complex plastic response appropriately described by nonlinear kinematics hardening, which is more realistic for stainless steel such as 316-L.
Author	Moumni, Z. Dang Van, K.
Author_xml	– sequence: 1 givenname: K. surname: Dang Van fullname: Dang Van, K. organization: LMS Ecole Polytechnique, CNRS,UMR 7649, 91128 Palaiseau Cedex, France – sequence: 2 givenname: Z. surname: Moumni fullname: Moumni, Z. organization: Laboratoire de Mécanique, ENSTA, 91760 Palaiseau Cedex, France
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Keywords	Finite element method Earthquake effect Piping Nuclear power plant Fatigue strength Stainless steel Plasticity Bended pipe Pipe bend Pipe Modeling
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References	Boussa, D., DangYan, K., Labbé, P., Tang, M.T., 1994. Fatigue-Seismic Ratcheting Interactions in Pressurized El-bows. J. Press. Technol. 11G, 396–402. Leconte (BIB7) 1992 Boussa, DangYan, Labbé, Tang (BIB1) 1996; 60 Chaboche, J.L., Cordie, G., DangYan, K., 1979. Modelisation of the strain memory effect on the cycle hardening of 316-L stainless steel Proceedings. SMIRT 5, Vol. M. Coffin (BIB6) 1970 Boussa, D., et al. 1992. Flexion plane du tuyau coudé et endommagement sous séisme, Ph.D Thesis, ENPC Paris. Clarck, Reissner (BIB5) 1951; 2 10.1016/S0029-5493(99)00229-0_BIB3 Leconte (10.1016/S0029-5493(99)00229-0_BIB7) 1992 Boussa (10.1016/S0029-5493(99)00229-0_BIB1) 1996; 60 10.1016/S0029-5493(99)00229-0_BIB4 Coffin (10.1016/S0029-5493(99)00229-0_BIB6) 1970 10.1016/S0029-5493(99)00229-0_BIB2 Clarck (10.1016/S0029-5493(99)00229-0_BIB5) 1951; 2
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Snippet	We present a simplified method to calculate the plastic ratchet of elbow-shaped pipes submitted to seismic loading and an internal pressure. This method is... A simplified method is presented for calculating the plastic ratchet of elbow-shaped pipes submitted to seismic loading and an internal pressure. This method...
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SubjectTerms	Applied sciences Energy Energy. Thermal use of fuels Engineering Sciences Exact sciences and technology Fatigue of materials Finite element method Fission nuclear power plants Installations for energy generation and conversion: thermal and electrical energy Mathematical models Mechanics Pipeline bends Plastic deformation Stainless steel Steel pipe
Title	Evaluation of fatigue-ratcheting damage of a pressurised elbow undergoing damage seismic inputs
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