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Determination of dynamic mode I fracture toughness of rock at ambient high temperatures using notched semi-circular bend method

You Wu, Tubing Yin, Xiling Liu, Xiaosong Tan, Zheng Yang, Qiang Li

2022Transactions of Nonferrous Metals Society of China22 citationsDOIOpen Access PDF

Abstract

To investigate the influence of loading rate and high temperature on the dynamic fracture toughness of rock, dynamic fracture tests were carried out on notched semi-circular bend specimens under four temperature conditions based on the split Hopkinson pressure bar system. Experimental and analytical methods were applied to investigating the effect of temperature gradient on the stress waves. A high-speed camera was used to check the fracture characteristics of the specimens. The results demonstrate that the temperature gradient on the bars will not significantly distort the shape of the stress wave. The dynamic force balance is achieved even when the specimens are at a temperature of 400 °C. The dynamic fracture toughness linearly develops with the increase of loading rate within the temperature range of 25−400 °C, and high temperature has a strengthening effect on the dynamic fracture toughness.

Topics & Concepts

Materials scienceFracture toughnessSplit-Hopkinson pressure barComposite materialFracture (geology)Bar (unit)Temperature gradientDynamic loadingAtmospheric temperature rangeStrain ratePhysicsQuantum mechanicsMeteorologyRock Mechanics and ModelingHigh-Velocity Impact and Material BehaviorFire effects on concrete materials
Determination of dynamic mode I fracture toughness of rock at ambient high temperatures using notched semi-circular bend method | Litcius