旧系泊链的疲劳能力——不同平均载荷下全尺寸疲劳试验的结果

Ø. Gabrielsen, Svein-Arne Reinholdtsen, B. Skallerud, P. Haagensen, Marius Andersen, P. Kane
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引用次数: 3

摘要

锚链的疲劳承载力是海上浮式结构物系泊系统设计的重要参数之一。疲劳寿命往往是一个限制因素。随着现有海上设施寿命的延长,疲劳能力和腐蚀的影响变得更加重要,因为如果不能安全延长使用寿命,更换系泊索将花费大量成本,并且疲劳失效的影响可能是致命的。因此,系泊链的疲劳能力评估对于新系泊系统的安全和经济有效设计以及旧系泊系统的安全寿命延长都具有重要意义。用于系泊系统设计的标准概述了疲劳分析的某种简化方法,其中载荷周期范围是分析中包含的唯一参数。所使用的疲劳能力曲线是基于新链条的全尺寸疲劳试验,其中不考虑严重腐蚀表面的影响。进一步间接假设平均载荷对疲劳能力没有影响。过去几年提出的工作表明,平均载荷和表面条件都有很强的影响,其中也开发并提出了包括这些参数在内的疲劳能力公式。这些结论是基于对新链条和旧链条进行的大量全尺寸疲劳试验得出的,其中旧链条在不同的平均载荷和不同的腐蚀水平下进行了测试。Equinor已经进行了大量的旧链条疲劳测试。对于这些测试,每组测试通常由一个链长度组成,在所有链接上具有相似的条件,并且通常仅在一个平均负载下运行。有一些试验集在平均载荷或表面条件上有一些变化,这为理解和验证这些参数的影响增加了有价值的数据。这些影响有很好的记录,但由于每组内的变化很小,因此影响的量化存在不确定性。最新的全尺寸疲劳测试结果,来自一个具有明显腐蚀坑的链条,包括一个系统的方法来量化平均载荷的影响。对于所测试的链条,在低平均负荷下进行了5次试验,在高平均负荷下进行了5次试验。本文介绍了这些疲劳试验的结果。讨论了新链条和旧链条的疲劳试验结果,并与考虑平均载荷和表面腐蚀的疲劳能力计算公式进行了比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fatigue Capacity of Used Mooring Chain - Results From Full Scale Fatigue Testing at Different Mean Loads
Fatigue capacity of mooring chains is one of the important parameters in design of mooring systems for floating offshore structures. Fatigue life is often a limiting factor. With life extension of existing offshore installations, the fatigue capacity and effects of corrosion become even more important, as there will be large costs for mooring line replacements if safe life extension can not be granted, and the effect of fatigue failure can be fatal. Estimation of the fatigue capacity of mooring chains is thus of high importance both for safe and cost-effective design of new mooring systems, and for the safe life extension of older mooring systems. The standards used for design of mooring systems outline a somewhat simplified approach for fatigue analysis, where load cycle range is the only parameter included in the analysis. The fatigue capacity curves used are based on full scale fatigue tests of new chains, where effects of heavily corroded surfaces are not considered. Further it is indirectly assumed that mean load does not have any effect on fatigue capacity. Work presented the last years has indicated a strong effect of both mean load and surface condition, where also formulas for fatigue capacity including these parameters have been developed and presented. The conclusions are based on a large set of full-scale fatigue tests of both new chains and used chains, where the used chains are tested at different mean loads and different levels of corrosion. Equinor has run a large number of used chain fatigue tests. For these tests, each set of tests is typically made from one chain length, with similar condition on all links, and usually run at one mean load only. There are test sets with some variation in either mean load or surface condition, which have added valuable data for the understanding and verification of the effect of these parameters. The effects are well documented, but due to small variation within each set there are uncertainties regarding the quantification of the effects. The latest full-scale fatigue test results, from a chain with significant corrosion pits, include a systematic approach to quantify the effect of mean load. For the chain tested, five tests have been run at low mean load, and five tests at high mean load. This paper presents the results from these fatigue tests. The results are discussed and compared with other fatigue test results on both new and used chain, and with the formulas for fatigue capacity accounting for mean load and surface corrosion.
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