Localization of breathing cracks in engineering structures with transmissibility function-based features

IF 1.1 Q4 ENGINEERING, MECHANICAL
Quankun Li, Zihao Li, Mingfu Liao, Kang Zhang
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引用次数: 0

Abstract

Structures such as fuselage, blade and wing in aeronautical and astronautical engineering are often subjected to cyclic loads in their service life, which in turn causes breathing cracks in these structures. To provide much more precise position of breathing cracks in structures and avoid structure failure, a local vibration-based approach using transmissibility function-based features is proposed and verified in this study. In the new method, nonlinear dynamic behaviour of cracked structures is simulated by a chain-type multiple-degree-of-freedom (MDOF) model, in which breathing cracks are represented as related nonlinear connections between masses. By modifying local structural physical parameters (mass, stiffness or damping coefficient), transmissibility function-based features are derived from cracked structures only and corresponding damage indicator is calculated for fault localization. Based on results of simulations on the chain-type model with breathing cracks, the effectiveness and practicability of damage indicator and method are verified and demonstrated. Moreover, merits, drawbacks and further development of this method are summarized and discussed.
基于传递函数特征的工程结构呼吸裂缝定位
航空航天工程中的机身、叶片和机翼等结构在使用寿命中经常受到循环载荷的作用,这反过来又会导致这些结构出现呼吸性裂纹。为了提供结构中呼吸裂纹的更精确位置并避免结构失效,本研究提出并验证了一种基于传递函数特征的局部振动方法。在新方法中,通过链式多自由度(MDOF)模型模拟了有裂纹结构的非线性动力学行为,其中呼吸裂纹表示为质量之间的相关非线性连接。通过修改局部结构物理参数(质量、刚度或阻尼系数),仅从裂纹结构中导出基于传递函数的特征,并计算相应的损伤指标进行故障定位。基于含呼吸裂纹链式模型的仿真结果,验证了损伤指标和方法的有效性和实用性。并对该方法的优缺点和进一步发展进行了总结和讨论。
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来源期刊
Journal of the Global Power and Propulsion Society
Journal of the Global Power and Propulsion Society Engineering-Industrial and Manufacturing Engineering
CiteScore
2.10
自引率
0.00%
发文量
21
审稿时长
8 weeks
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