2020
DOI: 10.1016/j.engstruct.2020.110949
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A holistic approach to risk-based decision on inspection and design of fatigue-sensitive structures

Abstract: Design and operation of large welded structural systems (e.g. ship and offshore structures) are challenging due to numerous fatigue-sensitive details, limited available budgets, uncertainties in fatigue damages, inspection & maintenance activities, etc. Traditionally, fatigue design and maintenance planning have been almost disconnected, which restricts coherent decision-making and optimum safety management. Structural design optimization, without quantitatively incorporating the effects of operational mainten… Show more

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Cited by 8 publications
(3 citation statements)
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“…[24] compares fatigue degradation of a structure using both fracture mechanics and S-N curve approaches to describe fatigue resistance. Further work on integration of the fracture mechanics approach in an holistic framework for the assessment of fatigue integrity is provided by Zou [25]. Doshi [26] presents a combination of fracture mechanics analysis and Probability of Detection curves to model the ability of finding those cracks when performing NDT.…”
Section: Risk Based Inspection Planningmentioning
confidence: 99%
“…[24] compares fatigue degradation of a structure using both fracture mechanics and S-N curve approaches to describe fatigue resistance. Further work on integration of the fracture mechanics approach in an holistic framework for the assessment of fatigue integrity is provided by Zou [25]. Doshi [26] presents a combination of fracture mechanics analysis and Probability of Detection curves to model the ability of finding those cracks when performing NDT.…”
Section: Risk Based Inspection Planningmentioning
confidence: 99%
“…In the literature, there are mainly three types of decision support systems: (1) maintenance and inspection decision support systems for selecting the best inspection techniques and timing for performing a maintenance cycle [66][67][68][69][70], (2) decision support after the inspection is performed to determine if the findings are critical [71] and (3) a combination of both with recommendations for the best repair action based on the findings [72]. The focus of this paper is on the decision support after the inspection is performed and the relevant literature is reviewed in this section.…”
Section: Decision-support Systems For Maintenance and Inspection Appl...mentioning
confidence: 99%
“…The work by Zou et al [72] proposed a support tool to improve the inspection, maintenance and repair decision-making, taking into account factors that affect the defect propagation. The approach was based on risk assessment and life cycle cost analysis.…”
Section: Decision-support Systems For Maintenance and Inspection Appl...mentioning
confidence: 99%