Effects of Thermal Damage and Confining Pressure on the Mechanical Properties of Coarse Marble

Effects of Thermal Damage and Confining Pressure on the Mechanical Properties of Coarse Marble

Heating treatment generally causes thermal damage inside rocks, and the influence of thermal damage on mechanical properties of rocks is an important topic in rock mechanics. The coarse marble specimens drilled out from a rock block were first heated to a specific temperature level of 200, 400 and 6...

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Bibliographic Details
Published in:Rock mechanics and rock engineering 2016-06, Vol.49 (6), p.2043-2054
Main Authors: Yao, Mengdi, Rong, Guan, Zhou, Chuangbing, Peng, Jun
Format: Article
Language:eng
Subjects:
Civil Engineering
Confining
Damage
Earth and Environmental Science
Earth Sciences
Engineering
Fracture mechanics
Geology
Geophysics/Geodesy
Heating
Mathematical models
Original Paper
Rock
Shear stress
Strength
Stresses
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Summary:Heating treatment generally causes thermal damage inside rocks, and the influence of thermal damage on mechanical properties of rocks is an important topic in rock mechanics. The coarse marble specimens drilled out from a rock block were first heated to a specific temperature level of 200, 400 and 600 °C except the control group left at 20 °C. A series of triaxial compression tests subjected to the confining pressure of 0, 5, 10, 15, 20, 25, 30, 35 and 40 MPa were conducted. Coupling effects of thermal damage and confining pressure on the mechanical properties of marbles including post-peak behaviors and failure modes, strength and deformation parameters, characteristic stresses in the progressive failure process had been investigated. Meanwhile, accompanied tests of physical properties were carried out to study the effect of thermal damage on microstructure, porosity and P-wave velocity. Finally, the degradation parameter was defined and a strength-degradation model to describe the peak strength was proposed. Physical investigations show that porosity increases slowly and P-wave velocity reduces dramatically, which could be re-demonstrated by the microscopy results. As for the post-peak behaviors and the failure modes, there is a brittle to ductile transition trend with increasing confining pressure and thermal effect reinforces the ductility to some degree. The comparative study on strength and deformation parameters concludes that heating causes damage and confining pressure inhibits the damage to develop. Furthermore, crack damage stress and crack initiation stress increase, while the ratios of crack damage stress to peak strength and crack initiation stress to peak strength show a decreasing trend with the increase of confining pressure; the magnitude of crack damage stress or crack initiation stress shows a tendency of decrease with the increasing heating temperature and the tendency vanishes subjected to high confinement.
ISSN:0723-2632
1434-453X