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Indexed by:期刊论文

Date of Publication:2016-07-01

Journal:JOURNAL OF ENGINEERING MECHANICS

Included Journals:SCIE

Volume:142

Issue:7

ISSN No.:0733-9399

Key Words:Rock-concrete interface; Tension-softening constitutive; Degree of roughness; Nature surface; Fracture

Abstract:To investigate the interface mechanics and fracture properties and establish an interface tension-softening constitutive law between concrete and rock for analyzing fracture failure of rock-concrete structures, uniaxial tension and three-point bending tests are conducted on rock-concrete composite specimens with artificial grooving or natural interfaces. Tensile strength, fracture energy, and initial fracture toughness of a rock-concrete interface are obtained from experimentation. Based on the load-displacement curves measured in the three-point bending test, the energy dissipation at a rock-concrete interface is derived using the modified J-integral method. In addition, through enforcing a balance between energy dissipation and energy generated by fictitious cohesive forces acting on the fracture process zone (FPZ), the tension-softening constitutive law of a rock-concrete interface is established, which takes into account the effects of fracture energy and tensile strength of an interface. For the sake of practical applications, the tension-softening constitutive expression is simplified as a bilinear function. Finally, the crack propagation process of a series of concrete-rock composite beams is simulated numerically based on a nonlinear fracture mechanics theory by introducing a crack-propagation criterion. The predicted load versus crack mouth opening displacement (P-CMOD) curves show a reasonable agreement with the experimental ones, verifying the tension-softening constitutive law for the rock-concrete interface derived in this study.