Global sensitivity analysis of failure probability caused by fatigue crack propagation

The proceedings of the 13th international conference "Modern Building Materials, Structures and Techniques" (MBMST 2019) Pub Date : 2019-12-03 DOI:10.3846/mbmst.2019.054

Z. Kala

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Abstract

The probability of failure of a load bearing steel member is investigated using a new type of global sensitivity analysis subordinated to contrasts. The main objective of the probability-oriented sensitivity analysis is structural reliability. The structural reliability methodology uses random variables as inputs. The subject of interest is the identification of those random variables that are most important when the limit state of a steel bridge member is reached. The limit state is defined by the occurrence of brittle fracture, which results from stress changes caused by multiple repeated loads. The propagation of a single-edge crack from initial to critical size is analysed using linear fracture mechanics. The failure probability and sensitivity indices are calculated using sampling-based methods. The sensitivity indices are estimated using double-nested-loop simulation of the Latin Hypercube Sampling method. New findings indicate that interaction effects among input variables strongly influence the probability of failure especially at the beginning of the operating period.

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疲劳裂纹扩展失效概率的全局敏感性分析

采用一种新的全局敏感性对比分析方法，对某承重钢构件的失效概率进行了研究。面向概率的灵敏度分析的主要目标是结构可靠度。结构可靠性方法使用随机变量作为输入。当钢桥构件达到极限状态时，最重要的随机变量的识别是我们感兴趣的主题。极限状态定义为脆性断裂的发生，而脆性断裂是由多次重复载荷引起的应力变化引起的。用线性断裂力学方法分析了单棱裂纹从初始尺寸到临界尺寸的扩展过程。采用基于抽样的方法计算了失效概率和灵敏度指标。利用拉丁超立方采样方法的双套回模拟估计了灵敏度指标。新的研究结果表明，输入变量之间的相互作用对故障概率有很大的影响，特别是在运行期开始时。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The proceedings of the 13th international conference "Modern Building Materials, Structures and Techniques" (MBMST 2019)

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