The different phases of a structure’s life-cycle are managed by different teams with little interaction. Correspondingly, the optimization of the individual phases is isolated and does not necessarily result in optimal life-cycle decisions. This motivates the treatment of structural optimization from a broader life-cycle perspective. A framework to enhance the design of structural systems by considering the operation and maintenance phase in the decision process is proposed in this article. The framework focuses on fatigue prone details, but it can be extended to consider other deterioration mechanisms. A hierarchical influence diagram is proposed as an efficient way to represent the probabilistic decision problem while considering system...
In comparison with the well-researched field of analysis and design of structural systems, the life-...
Smart Ship Technology 2018, London, United Kingdom, 23-24 January 2018Fatigue cracks threaten integr...
A model for reliability-based repair and maintenance strategies of structural systems is described. ...
Design and operation of large welded structural systems (e.g. ship and offshore structures) are chal...
This paper presents a theoretical framework for developing a risk–cost optimised maintenance strateg...
The Twenty-eighth (2018) International Ocean and Polar Engineering Conference, Sapporo, Japan, 10-15...
Fatigue cracks increase structural failure risk and timely maintenance is very important. Maintenanc...
This chapter is aimed at presenting a review of the main principles, concepts, methods, and strategi...
The optimal maintenance scheduling of systems with degrading components is highly coupled with the d...
Existing engineering structures are continuously deteriorating and their lifetimes are limited. In o...
Civil infrastructure systems are subjected to progressive deterioration resulting from multiple mech...
A simplified and practically applicable approach for risk based inspection planning of fatigue sensi...
The optimal moment at which maintenance activities should be performed on structures with long servi...
In recent years, significant advances have been accomplished in the fields of modeling, analysis, an...
Fatigue is the one of the main contributors to problems related to structural safety of civil and ma...
In comparison with the well-researched field of analysis and design of structural systems, the life-...
Smart Ship Technology 2018, London, United Kingdom, 23-24 January 2018Fatigue cracks threaten integr...
A model for reliability-based repair and maintenance strategies of structural systems is described. ...
Design and operation of large welded structural systems (e.g. ship and offshore structures) are chal...
This paper presents a theoretical framework for developing a risk–cost optimised maintenance strateg...
The Twenty-eighth (2018) International Ocean and Polar Engineering Conference, Sapporo, Japan, 10-15...
Fatigue cracks increase structural failure risk and timely maintenance is very important. Maintenanc...
This chapter is aimed at presenting a review of the main principles, concepts, methods, and strategi...
The optimal maintenance scheduling of systems with degrading components is highly coupled with the d...
Existing engineering structures are continuously deteriorating and their lifetimes are limited. In o...
Civil infrastructure systems are subjected to progressive deterioration resulting from multiple mech...
A simplified and practically applicable approach for risk based inspection planning of fatigue sensi...
The optimal moment at which maintenance activities should be performed on structures with long servi...
In recent years, significant advances have been accomplished in the fields of modeling, analysis, an...
Fatigue is the one of the main contributors to problems related to structural safety of civil and ma...
In comparison with the well-researched field of analysis and design of structural systems, the life-...
Smart Ship Technology 2018, London, United Kingdom, 23-24 January 2018Fatigue cracks threaten integr...
A model for reliability-based repair and maintenance strategies of structural systems is described. ...