Litcius/Paper detail

A simple method for determining independent fracture toughness and tensile strength of rock

Junfeng Guan, Yulong Zhang, Jiangfeng Meng, Xianhua Yao, Lielie Li, Shuanghua He

2022International Journal of Mining Science and Technology28 citationsDOIOpen Access PDF

Abstract

This paper develops a model that only requires two sets of small-size rock specimens with the ratio of the structural geometry parameter maximum to minimum ae,max:ae,min ≥ 3:1 to determine the rock fracture and strength parameters without size effect and predict the actual structural performance of rock. Regardless of three-point-bending, four-point-bending, or a combination of the above two specimen types, fracture toughness KIC and tensile strength ft of rock were determined using only two sets of specimens with ae,max:ae,min ≥ 3:1. The values KIC and ft were consistent with those determined using multiple sets of specimens. The full structural failure curve constructed by two sets of small-size specimens with ae,max:ae,min ≥ 3:1 can accurately predict large-size specimens fracture failure, and ±10% upper and lower limits of the curve can encompass the test results of large-size specimens. The peak load prediction curve was constructed by two sets of specimens with ae,max:ae,min ≥ 3:1, and ±15% upper and lower limits of the peak load prediction curve can cover the small-size specimen tests data. The model and method proposed in this paper require only two sets of small-size specimens, and their selection is unaffected by the specimen type, geometry, and initial crack length.

Topics & Concepts

Fracture toughnessUltimate tensile strengthMaterials scienceFracture (geology)BendingThree point flexural testStructural engineeringComposite materialToughnessAcoustic emissionFracture mechanicsFlexural strengthGeometryGeotechnical engineeringMathematicsGeologyEngineeringRock Mechanics and ModelingTunneling and Rock MechanicsLandslides and related hazards