Study of SCA-Induced Rock Crack Propagation under Different Stress Conditions Using a Modified Cohesive Element Method
Joint Authors
Wang, Shen
Li, Huamin
Wang, Wen
Li, Dongyin
Mitri, Hani
Source
Issue
Vol. 2018, Issue 2018 (31 Dec. 2018), pp.1-16, 16 p.
Publisher
Hindawi Publishing Corporation
Publication Date
2018-11-01
Country of Publication
Egypt
No. of Pages
16
Main Subjects
Abstract EN
When inducing cracks, soundless cracking agents (SCAs) do not generate vibration, harmful gas, dust, nor flying rock fragment, making them suitable for hard rock roof breaking, rock burst prevention, oil or gas reservoir stimulation, and building demolition.
In this study, SCA-induced crack initiation and propagation in different stress conditions were modelled using a modified cohesive element method.
A new traction-separation law for describing rock compressive shear strength was proposed.
The crack length and direction in bidirectional isobaric and unequal stress fields were analyzed in detail.
The crack initiation pressure and the incremental ratio of crack length to SCA expansion pressure were proposed as two indicators to evaluate the difficulty in rock breaking in deep underground.
Results indicate that (1) the modified cohesive element method used in this study is feasible to model crack propagation in deep rocks; (2) the maximum expansion pressure of SCAs depends on rock elastic modulus and geostress field and should be measured under a condition similar to deep underground prior to SCA borehole spacing design; when using the SCAs with a maximum expansion pressure of 100 MPa in 600 m underground, the suggested borehole spacing is less than 220 mm; and (3) σ3 dominates the crack initiation pressure while the principal stress ratio σ3/σ1 and notch direction control the direction of crack propagation.
American Psychological Association (APA)
Wang, Shen& Mitri, Hani& Li, Huamin& Li, Dongyin& Wang, Wen. 2018. Study of SCA-Induced Rock Crack Propagation under Different Stress Conditions Using a Modified Cohesive Element Method. Advances in Civil Engineering،Vol. 2018, no. 2018, pp.1-16.
https://search.emarefa.net/detail/BIM-1116646
Modern Language Association (MLA)
Wang, Shen…[et al.]. Study of SCA-Induced Rock Crack Propagation under Different Stress Conditions Using a Modified Cohesive Element Method. Advances in Civil Engineering No. 2018 (2018), pp.1-16.
https://search.emarefa.net/detail/BIM-1116646
American Medical Association (AMA)
Wang, Shen& Mitri, Hani& Li, Huamin& Li, Dongyin& Wang, Wen. Study of SCA-Induced Rock Crack Propagation under Different Stress Conditions Using a Modified Cohesive Element Method. Advances in Civil Engineering. 2018. Vol. 2018, no. 2018, pp.1-16.
https://search.emarefa.net/detail/BIM-1116646
Data Type
Journal Articles
Language
English
Notes
Includes bibliographical references
Record ID
BIM-1116646