Reliability Prediction Method of Fatigue Life for Rod String

Based on the wave equation of longitudinal vibration, the simulation model of cyclic stress properties for sucker rod is proposed. The regression model for stress concentration factor of rods with defects is established by the finite element method. According to the influence of transition section o...

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Hauptverfasser:	Hong Zhang, Shimin Dong, Zigeng Chen, Guodi Feng, Luyou Leng
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Sprache:	eng
Schlagworte:	Corrosion defect and damage Fatigue fatigue life Materials reliability Reliability engineering Reliability theory rod string simulation model Stress stress concentration
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creator	Hong Zhang Shimin Dong Zigeng Chen Guodi Feng Luyou Leng
description	Based on the wave equation of longitudinal vibration, the simulation model of cyclic stress properties for sucker rod is proposed. The regression model for stress concentration factor of rods with defects is established by the finite element method. According to the influence of transition section on fatigue limit and service life on the degree of damage, combining the randomness of material mechanical properties, defect size and cyclic stress, the reliability prediction model for fatigue life is put forward. The corresponding reliability simulation software is developed. The software not only analyses the effect of actual stress using factor (SUF) and service life on rod string's fatigue life and reliability, but also analyses the weak link of rod string's reliability. Meanwhile, several simulation results are shown as follows: Transition section is the weak link of the whole rod string; Service life and the actual stress level have significant influence on fatigue life and reliability; For multistage rod string designed according to equal-strength theory, different stage rod string has different reliability, and the reliability of the rod string's bottom-part is lower than its top-part.
doi_str_mv	10.1109/ICQR2MSE.2012.6246370
format	Conference Proceeding
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The regression model for stress concentration factor of rods with defects is established by the finite element method. According to the influence of transition section on fatigue limit and service life on the degree of damage, combining the randomness of material mechanical properties, defect size and cyclic stress, the reliability prediction model for fatigue life is put forward. The corresponding reliability simulation software is developed. The software not only analyses the effect of actual stress using factor (SUF) and service life on rod string's fatigue life and reliability, but also analyses the weak link of rod string's reliability. 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The regression model for stress concentration factor of rods with defects is established by the finite element method. According to the influence of transition section on fatigue limit and service life on the degree of damage, combining the randomness of material mechanical properties, defect size and cyclic stress, the reliability prediction model for fatigue life is put forward. The corresponding reliability simulation software is developed. The software not only analyses the effect of actual stress using factor (SUF) and service life on rod string's fatigue life and reliability, but also analyses the weak link of rod string's reliability. Meanwhile, several simulation results are shown as follows: Transition section is the weak link of the whole rod string; Service life and the actual stress level have significant influence on fatigue life and reliability; For multistage rod string designed according to equal-strength theory, different stage rod string has different reliability, and the reliability of the rod string's bottom-part is lower than its top-part.</abstract><pub>IEEE</pub><doi>10.1109/ICQR2MSE.2012.6246370</doi><tpages>5</tpages></addata></record>
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subjects	Corrosion defect and damage Fatigue fatigue life Materials reliability Reliability engineering Reliability theory rod string simulation model Stress stress concentration
title	Reliability Prediction Method of Fatigue Life for Rod String
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