Abstract
Coalescence among fractures would have influence on the stability of rock masses. Deep understanding of mechanical behavior of fractured rock masses is an important mean to identify failure mechanism of geological disaster. In this study, crack propagation processing was studied through loading pre-fractured specimens of concrete block, termed as rock-like material, in uniaxial compression tests. New non-parallel double-crack geometry was introduced to observe crack coalescence. The flaw combinations are different from the normally used flaw configurations. In addition, ultrasonic detection tests were performed on the test blocks. The stress and strain data of these tests and characteristic parameters of sound wave were recorded. The stress-strain curves of each test block under the uniaxial compression test were drawn, relations among deformation characteristics and crack angle of the crack specimens, and their overall strength were analyzed. It is found that strength of the specimen decreases as crack inclination increases under two crack inclinations. The highest uniaxial compressive strength is found in the specimen with the cracks at the same angle in different directions. Based on description of the crack initiation location, crack surface and the ultimate failure patterns, failure modes of eight subtype for test blocks are divided into three categories. It is expected that the study results could be beneficial for engineering application of jointed rock masses.
Highlights
A large number of structural plane are formed inside the rock mass under influence of geological progress, which have a significant effect on strength and failure form of rock masses
Crack propagation processing was studied through loading pre-fractured specimens of concrete block, termed as rock-like material, in uniaxial compression tests
The crack angle has considerable influence on the strength of the specimen, which decreases with the increasing of the crack inclination angle, for the combination of two different dip angles
Summary
A large number of structural plane are formed inside the rock mass under influence of geological progress, which have a significant effect on strength and failure form of rock masses. Zhu et al (2016) fabricated a batch of samples with single and double internal fractures using transparent rock-like materials They studied the influence of crack propagation and the penetration modes of single and double crack specimens under different rock bridge dip angles and crack spacing; they studied the influence of the number and spacing of the cracks on the compressive strength of the specimens. Yang (2013) studied the influence of the dip angle in rock bridge on the strength failure and crack propagation characteristics of fractured three-crevasse sandstone through uniaxial compression tests on fractured three-crevasse sandstone samples. 27.7 25.2 24.1 23.9 19.6 18.7 30.1 27.8 30.1 23.8 23.3 22.1 crack initiation position, occurrence of the wing crack, and the crack surface, the types of coalescence failure are described to explain the characteristics of each mode
Sign-in/Register to view highlights & summary Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callMore From: International Journal of Coal Science & Technology
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
