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Estimation of Inertial Parameters of a Rigid Rotor Having Dynamic Unbalance on Active Magnetic Bearing Read chapter Read first chapter

2020 | OriginalPaper | Chapter

Prediction of Fatigue-Ratcheting Failure of a Piping System Using Iterative Response Spectrum Method

Authors : A. Ravi Kiran, G. R. Reddy, M. K. Agrawal

Published in: Advances in Rotor Dynamics, Control, and Structural Health Monitoring

Publisher: Springer Singapore

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Abstract

The present work describes the application of a numerical technique to predict fatigue-ratcheting failure level for a typical six-inch carbon steel piping system. The failure prediction is done by choosing limits on ratcheting and fatigue usage factor. Strain accumulation in the system is predicted using the numerical method. In this method, ratcheting in the piping loop is evaluated by carrying out response spectrum analysis at system level using the envelope characteristics at component level. Fatigue usage factors are evaluated using alternating stress along with Miner’s rule. These estimated levels are compared with excitation levels for static collapse evaluated from closed-form equations from literature.

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previous chapter Physical Condition Monitoring of an Angle Section Thin-Walled Curved Beam Based on Non-destructive Assessment
next chapter Structural Health Monitoring Using Improved Subspace Identification Method by Including Rotational Degrees of Freedom
Literature
1.
EPRI (1994) Piping and fitting dynamic reliability program, Vol 2—Component tests report, EPRI TR-102792-V2, Project 1543-15
2.
Ravikiran A, Dubey PN, Agrawal MK, Reddy GR, Vaze KK (2013) Evaluation of inelastic seismic response of piping system using modified iterative response spectrum method. J Pressure Vessel Technol 135(041801):1–8
3.
Ravikiran A, Dubey PN, Agrawal MK, Reddy GR, Singh RK, Vaze KK (2015) Experimental and numerical studies of ratcheting in a pressurized piping system under seismic load. J Pressure Vessel Technol 137(031011):1–7
4.
Labbe PB, Reddy GR, Mathon C, Moreau F, Karamanos SA (2016) The OECD-NEA programme on metallic component margins under high seismic loads (MECOS). In: Proceedings of the ASME pressure vessels and piping conference, ASME Paper No. PVP2016-63119, Volume 8: Seismic engineering. https://​doi.​org/​10.​1115/​pvp2016-63119
5.
Ravi Kiran A, Reddy GR, Agrawal MK (2019) Seismic fragility analysis of pressurized piping systems considering ratcheting: a case study. Int J Press Vessels Pip 169:26–36
6.
Kulkarni SC, Desai YM, Kant T, Reddy GR, Prasad P, Vaze KK, Gupta C (2004) Uniaxial and biaxial ratchetting in piping materials—experiments and analysis. Int J Press Vessels Pip 81:609–617CrossRef
7.
ASME (1995) ASME boiler and pressure vessel code, Section III, Division 1, The American Society of Mechanical Engineers, New York
8.
ASME (2010) ASME boiler and pressure vessel code, Section III, Division 1, The American Society of Mechanical Engineers, New York
9.
Spence J, Findlay GE (1973) Limit load for pipe bends under in-plane bending. In: Proceedings of the 2nd international conference on pressure vessel technology, San Antonio, pp 393–399
10.
Touboul F et al (1989) Design criteria for piping components against plastic collapse: application to pipe bend experiments. In: Cengdian, Liu, Nichols (eds) Proceedings of 6th international conference of pressure vessel technology, Beijing, China, September, 11–15, pp 73–84
11.
Asada S, Nakamura T (2011) Simplified elastic-plastic analysis methods in the JSME rules on design and construction. J Environ Eng 6(4):753–764CrossRef
Metadata
Title
Prediction of Fatigue-Ratcheting Failure of a Piping System Using Iterative Response Spectrum Method
Authors
A. Ravi Kiran
G. R. Reddy
M. K. Agrawal
Copyright Year
2020
Publisher
Springer Singapore
Book
Advances in Rotor Dynamics, Control, and Structural Health Monitoring

Print ISBN: 978-981-15-5692-0

Electronic ISBN: 978-981-15-5693-7

Copyright Year: 2020

DOI
https://doi.org/10.1007/978-981-15-5693-7_15

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