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Feasibility Study and Prospects of Rock Fragmentation Using Ultrasonic Vibration Excitation

Xufeng Wang, Xuanlin Wang, Jiyao Wang, Zhongxi Tian

2020Applied Sciences28 citationsDOIOpen Access PDF

Abstract

This paper systematically examines the feasibility of using ultrasonic vibration excitation for rock breakage and fragmentation; it focuses on the failure mechanisms of rock mass under the impact of ultrasonic waves, and the development of ultrasonic technology. Laboratory testing using a self-designed system was conducted in this paper to further validate the efficiency and reliability of rock breakage using ultrasonics. The results show that: (i) under the effects of both the high speed impact of ultrasonic vibration excitation and induced rock vibration excitation, a fracture is initiated and propagates rapidly within and outside of the rock. Under ultrasonic vibration excitation for 140 s, the compressive strength decreased by 45.6%; (ii) under the excitation of ultrasonics, the rock specimens failed completely in a short time from inside to outside, and there are distinct fissures in the internal nucleation of the rock. It is suggested that ultrasonic excitation provides a novel and promising option for rock fragmentation and breakage, which optimises the efficiency of underground hard rock engineering.

Topics & Concepts

BreakageUltrasonic sensorExcitationVibrationRock mass classificationFragmentation (computing)Materials scienceAcousticsStructural engineeringGeotechnical engineeringGeologyEngineeringComposite materialPhysicsComputer scienceElectrical engineeringOperating systemRock Mechanics and ModelingTunneling and Rock MechanicsMineral Processing and Grinding
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