Evolution of the damage precursor based on the felicity effect in shale

IF 4 2区工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY International Journal of Damage Mechanics Pub Date : 2024-05-24 DOI:10.1177/10567895241253727

PK Gautam, Rishabh Dwivedi, Peeyush Garg, Dipaloke Majumder, Siddhartha Agarwal, Maurice McSaveney, TN Singh

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Abstract

Damage precursors during hydraulic fracturing in shale gas reservoirs may be better understood if the deformation, failure, and acoustic emission (AE) characteristics under cyclic loading are known. Therefore, the purpose of this paper is to investigate the quantitative damage based on the Felicity effect under constant stress lower limit uniaxial cyclic loading-unloading rates (0.5, 1.0, 1.5, 2.0, and 2.5 kN/s). Variations in the b-value and the spatiotemporal evolution of cumulative AE were also used to observe how shale fractures formed. The findings reveal that during the unloading stage, there are many cumulative AE events when the stress level is low (≤1.50 kN/s) but that this number drops significantly when the stress level increases above (>2.0 kN/s). The AE amplitude, AE counts, and cumulative AE energy of each cycle in a loading-unloading test show an increasing trend, but the rate increases in the last cycle. During the whole process of loading and unloading, the Kaiser effects were present in the 3rd cycle at stress levels (≤1.5 kN/s). Still, the Felicity effect appeared in the 2nd and 1st cycles during 2.0 and 2.5 kN/s cyclic loading. The Kaiser effect occurs in the linear elastic stage, while the Felicity effect occurs in the crack initiation and crack damage stage. Furthermore, the Felicity ratio (FR) variations during shale deformation and failure can be divided into four phases: (Phase I = 1.01 ≥ FR > 0.89), (Phase II = 0.89 ≥ FR > 0.48), (Phase III = 0.48 ≥ FR > 0.23), and (Phase IV = FR ≤ 0.23). The b-value is relatively higher under the loading rate below (≤1.50 kN/s), indicating an increase in the number of small AE events. In contrast, the fact that the b-value is relatively smaller under the loading rate above (>2.0 kN/s) indicates that, the number of large AE events increases the number of cracks and fractures. These findings provide important design references for damaged precursors during hydraulic fracturing in shale gas reservoirs.

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基于页岩中幸福效应的破坏前兆演变

如果知道循环加载下的变形、破坏和声发射（AE）特征，就能更好地理解页岩气藏水力压裂过程中的破坏前兆。因此，本文的目的是研究在恒定应力下限单轴循环加载-卸载速率（0.5、1.0、1.5、2.0 和 2.5 kN/s）下基于 Felicity 效应的定量损伤。b 值的变化和累积 AE 的时空演变也用于观察页岩裂缝的形成过程。研究结果表明，在卸载阶段，当应力水平较低时（≤1.50 kN/s），会出现大量累积 AE 事件，但当应力水平高于（2.0 kN/s）时，累积 AE 事件的数量会显著下降。在加载-卸载试验中，每个周期的 AE 振幅、AE 计数和累积 AE 能量都呈上升趋势，但在最后一个周期，上升速度加快。在整个加载和卸载过程中，凯撒效应出现在应力水平（≤1.5 kN/s）的第 3 个周期。在 2.0 和 2.5 kN/s 循环加载期间，费利西蒂效应仍然出现在第 2 和第 1 个循环中。Kaiser 效应出现在线性弹性阶段，而 Felicity 效应出现在裂纹萌发和裂纹破坏阶段。此外，页岩变形和破坏过程中的费利西比（FR）变化可分为四个阶段：（第一阶段 = 1.01 ≥ FR > 0.89）、（第二阶段 = 0.89 ≥ FR > 0.48）、（第三阶段 = 0.48 ≥ FR > 0.23）和（第四阶段 = FR ≤ 0.23）。在以下加载速率下（≤1.50 kN/s），b 值相对较高，表明小 AE 事件的数量有所增加。相反，在加载速率高于（2.0 kN/s）时，b 值相对较小，这表明大的 AE 事件数量会增加裂缝和断裂的数量。这些发现为页岩气藏水力压裂过程中受损前驱体的设计提供了重要参考。

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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来源期刊

International Journal of Damage Mechanics 工程技术-材料科学：综合

CiteScore

8.70

自引率

26.20%

发文量

审稿时长

5.4 months

期刊介绍： Featuring original, peer-reviewed papers by leading specialists from around the world, the International Journal of Damage Mechanics covers new developments in the science and engineering of fracture and damage mechanics. Devoted to the prompt publication of original papers reporting the results of experimental or theoretical work on any aspect of research in the mechanics of fracture and damage assessment, the journal provides an effective mechanism to disseminate information not only within the research community but also between the reseach laboratory and industrial design department. The journal also promotes and contributes to development of the concept of damage mechanics. This journal is a member of the Committee on Publication Ethics (COPE).