defect assessment
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2022 ◽  
Vol 163 ◽  
pp. 108142
Author(s):  
Joost Segers ◽  
Saeid Hedayatrasa ◽  
Gaétan Poelman ◽  
Wim Van Paepegem ◽  
Mathias Kersemans

2021 ◽  
Author(s):  
Shahani Kariyawasam ◽  
Shenwei Zhang ◽  
Jason Yan

2021 ◽  
pp. 347-355
Author(s):  
Sheng Wang ◽  
Zixu Zhuang ◽  
Kai Xuan ◽  
Dahong Qian ◽  
Zhong Xue ◽  
...  

2020 ◽  
pp. 1-35
Author(s):  
Hamid Mostaghimi ◽  
Mohsen Hassani ◽  
Deli Yu ◽  
Ronald J. Hugo ◽  
Simon S. Park

Abstract In-line inspection (ILI) is a non-destructive assessment method commonly used for defect assessment and for pipeline monitoring. Passing an ILI tool through an excavated or exposed section of a pipe during an integrity assessment can excite vibrations. The ILI tool's weight and speed can exert substantial forces, stresses, and deflections on the pipe section. When the excitation frequency from the ILI tool's movement is close to the pipe's natural frequency, the dynamic stress generated within the pipe can become great enough that it creates integrity concerns on the pipeline. This research aims to study effects of an ILI tool's passage through exposed and partially supported pipes under a variety of boundary and loading conditions. A finite element model of an exposed pipe section is developed based on the Timoshenko beam theory to predict the pipe's displacement, strain, stress, and frequency responses under a wide range of excitation frequencies. The model is further validated using a lab-scale experimental setup with a mass that moves at different speeds. A comparison between the simulation and the experimental results shows that the proposed model can effectively predict the pipe's dynamics.


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