Crack Identification by Digital Image Correlation Method Using Crack Shape as Prior Information

IF 1 4区工程技术 Q4 ENGINEERING, MECHANICAL Journal of Pressure Vessel Technology-Transactions of the Asme Pub Date : 2023-05-17 DOI:10.1115/1.4062551

Norihiko Hana, M. Umeda, Masao Akiyoshi, Kazushi Mitamura, K. Amaya

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Abstract

A new crack identification method that estimates the cracks in invisible locations based on the surface deformation measured by digital image correlation (DIC) is developed. An inverse problem is set up to estimate such invisible cracks from surface deformations. The inverse problem has an ill-condition because of noise contained in surface deformations. Our proposed regularization method uses prior information and Expectation a Posteriori (EAP) estimation. Prior information includes candidate crack shapes and surface deformations due to cracks. The candidate crack shapes are created by determining a crack's starting point and propagating it based on the force at its perimeter (ligament). A prior distribution is the surface deformations due to the candidate crack shapes. The likelihood distribution is a surface deformation measured by the DIC method. A posterior distribution is defined from the prior and likelihood distributions. In this study, the estimated result is the expected value of the posterior distribution. The validation test was performed, and the result shows that the proposed method superior to conventional L1-norm regularization method.

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以裂纹形状为先验信息的数字图像相关方法识别裂纹

提出了一种新的裂纹识别方法，该方法基于数字图像相关（DIC）测量的表面变形来估计不可见位置的裂纹。建立了一个反问题来从表面变形中估计这种不可见的裂纹。由于曲面变形中包含噪声，反问题具有病态性。我们提出的正则化方法使用先验信息和后验期望（EAP）估计。先验信息包括候选裂纹形状和由于裂纹引起的表面变形。候选裂纹形状是通过确定裂纹的起点并根据其周边（韧带）处的力传播来创建的。先验分布是由于候选裂纹形状引起的表面变形。似然分布是通过DIC方法测量的表面变形。后验分布是由先验分布和似然分布定义的。在本研究中，估计结果是后验分布的期望值。进行了验证测试，结果表明该方法优于传统的L1范数正则化方法。

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来源期刊

Journal of Pressure Vessel Technology-Transactions of the Asme 工程技术-工程：机械

CiteScore

2.10

自引率

10.00%

发文量

审稿时长

4.2 months

期刊介绍： The Journal of Pressure Vessel Technology is the premier publication for the highest-quality research and interpretive reports on the design, analysis, materials, fabrication, construction, inspection, operation, and failure prevention of pressure vessels, piping, pipelines, power and heating boilers, heat exchangers, reaction vessels, pumps, valves, and other pressure and temperature-bearing components, as well as the nondestructive evaluation of critical components in mechanical engineering applications. Not only does the Journal cover all topics dealing with the design and analysis of pressure vessels, piping, and components, but it also contains discussions of their related codes and standards. Applicable pressure technology areas of interest include: Dynamic and seismic analysis; Equipment qualification; Fabrication; Welding processes and integrity; Operation of vessels and piping; Fatigue and fracture prediction; Finite and boundary element methods; Fluid-structure interaction; High pressure engineering; Elevated temperature analysis and design; Inelastic analysis; Life extension; Lifeline earthquake engineering; PVP materials and their property databases; NDE; safety and reliability; Verification and qualification of software.