4.7 Article

Fracture of two three-dimensional parallel internal cracks in brittle solid under ultrasonic fracturing

出版社

SCIENCE PRESS
DOI: 10.1016/j.jrmge.2021.11.002

关键词

Three-dimensional internal laser-engraved crack (3D-ILC); Interaction of cracks; Ultrasonic fatigue; Penny-shaped crack; Fracture mechanics; High-cycle fatigue

资金

  1. National Natural Science Foundation of China [52104125, U1765204, 51739008]

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Investigating ultrasonic fracturing (UF) is important in hard rock drilling and oil and gas recovery. The 3D internal laser-engraved crack (3D-ILC) method was introduced to create two internal cracks within samples without surface damage. The characteristics of fracture surfaces were analyzed to understand the mechanism of UF. The results from numerical simulation based on the Paris fatigue model were consistent with the experimental results, indicating the effectiveness of the 3D-ILC method for UF research.
Similar to hydraulic fracturing (HF), the coalescence and fracture of cracks are induced within a rock under the action of an ultrasonic field, known as ultrasonic fracturing (UF). Investigating UF is important in both hard rock drilling and oil and gas recovery. A three-dimensional internal laser-engraved crack (3D-ILC) method was introduced to prefabricate two parallel internal cracks within the samples without any damage to the surface. The samples were subjected to UF. The mechanism of UF was elucidated by analyzing the characteristics of fracture surfaces. The crack propagation path under different ultrasonic parameters was obtained by numerical simulation based on the Paris fatigue model and compared to the experimental results of UF. The results show that the 3D-ILC method is a powerful tool for UF research. Under the action of an ultrasonic field, the fracture surface shows the characteristics of beach marks and contains powder locally, indicating that the UF mechanism includes high-cycle fatigue fracture, shear and friction, and temperature load. The two internal cracks become close under UF. The numerical result obtained by the Paris fatigue model also shows the attraction of the two cracks, consistent with the test results. The 3D-ILC method provides a new tool for the experimental study of UF. Compared to the conventional numerical methods based on the analysis of stressestrain and plastic zone, numerical simulation can be a good alternative method to obtain the crack path under UF. (C) 2022 Institute of Rock and Soil Mechanics, Chinese Academy of Sciences. Production and hosting by Elsevier B.V.

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