Fatigue in High-Speed Ships: Crack Propagation in Aluminum

机译：高速船舶的疲劳：铝中的裂纹繁殖

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To develop a design method concerning high-cycle fatigue of arc-welded joints in high-speed aluminum ships, two-stage crack growth, micro-crack and macro-crack growth, propagation, in aluminum 5083 has been investigated using a Linear Elastic Fracture Mechanics (LEFM) approach. The macro-crack growth governing LEFM parameter, the Stress Intensity Factor (SIF), is obtained using available handbook solutions. This SIF is corrected using the Stress Concentration Factor (SCF) related analytical, parametric notch stress formulations of the uncracked geometry of the welded joints, applied as crack face pressure, to cover micro-crack growth. The notch stress formulations and SIF's for some basic welded joints are compared to Finite Element (FE) solutions and match quite well. The two-stage crack growth model is compared to experimental data of a Single Edge Notch (SEN) specimen and show promising results.

机译：开发关于高速铝船中弧焊接头的高周疲劳的设计方法，使用线性弹性骨折研究了铝5083中的两级裂纹生长，微裂纹和宏观裂纹生长，传播，铝合金5083力学（瑞士）方法。使用可用的手册解决方案获得了甲纤维参数，应力强度因子（SIF）的宏观裂纹增长。使用焊接接头的未粘合的几何形状的应力浓度因子（SCF）相关的分析，参数化切口应力配方校正该SIF，作为裂纹面压，以覆盖微裂纹的生长。将一些基本焊接接头的凹口应力制剂和SIF的凹口压力配方和SIF与有限元（FE）溶液进行比较，并匹配相匹配。将两级裂缝生长模型与单个边缘凹口（SEN）标本的实验数据进行比较，并显示有前途的结果。

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《International symposium on practical design of ships and other floating structures》|2010年||共11页
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J.H. den Besten; R.H.M. Huijsmans;
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中图分类船舶工程;
关键词
high-cycle fatigue; aluminum 5083; arc-welded joints; crack growth;

机译：高循环疲劳;铝5083;弧焊关节;裂缝增长;

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Fatigue in High-Speed Ships: Crack Propagation in Aluminum

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