Hull Structures as a System: Supporting Lifecycle Analysis

IF 0.2 4区 工程技术 Q4 ENGINEERING, CIVIL Naval Engineers Journal Pub Date : 2012-01-27 DOI:10.1111/j.1559-3584.2011.00329.x
MATTHEW COLLETTE
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引用次数: 16

Abstract

As modular weapon systems allow cost-effective upgrades of a vessel's war-fighting capability, the degradation of the difficult-to-upgrade structure of the vessel may soon become one of the key drivers of vessel retirement and lifecycle maintenance costing. Existing structural design approaches are reviewed, along with recent developments in this field. It is argued that recent research has produced a number of ad hoc metrics for structural design, such as producability; however, to truly address the needs of future ship design teams it is necessary to integrate several such metrics in a systems-engineering view to evaluate how the structural system contributes to the overall capabilities and costs of a proposed vessel. Potential architectures for this approach are discussed, along with key shortcomings. A comparative example is given for structural fatigue of a strength deck under global bending loading, comparing the traditional design approach with a systems-oriented view.

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船体结构作为一个系统:支持生命周期分析
由于模块化武器系统允许对舰艇作战能力进行成本效益高的升级,难以升级的舰艇结构的退化可能很快成为舰艇退役和生命周期维护成本的关键驱动因素之一。回顾了现有的结构设计方法,以及该领域的最新发展。有人认为,最近的研究已经为结构设计产生了许多特别的指标,例如可生产性;然而,为了真正满足未来船舶设计团队的需求,有必要从系统工程的角度整合几个这样的指标,以评估结构系统如何对拟议船舶的整体能力和成本做出贡献。讨论了这种方法的潜在架构,以及主要缺点。通过对传统设计方法与面向系统的设计方法的比较,给出了整体弯曲荷载作用下强度甲板结构疲劳的对比实例。
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Naval Engineers Journal
Naval Engineers Journal 工程技术-工程:海洋
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