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LIU Jun-zhong, XU Jin-yu, Lü Xiao-cong, WANG Ze-dong, ZHANG Lei. STUDY ON DYNAMIC BEHAVIOR AND DAMAGE CONSTITUTIVE MODEL OF ROCK UNDER IMPACT LOADING WITH CONFINING PRESSURE[J]. Engineering Mechanics, 2012, 29(1): 55-63.
Citation: LIU Jun-zhong, XU Jin-yu, Lü Xiao-cong, WANG Ze-dong, ZHANG Lei. STUDY ON DYNAMIC BEHAVIOR AND DAMAGE CONSTITUTIVE MODEL OF ROCK UNDER IMPACT LOADING WITH CONFINING PRESSURE[J]. Engineering Mechanics, 2012, 29(1): 55-63.
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STUDY ON DYNAMIC BEHAVIOR AND DAMAGE CONSTITUTIVE MODEL OF ROCK UNDER IMPACT LOADING WITH CONFINING PRESSURE

  • Department of Airfield and Building Engineering, Air Force Engineering University, Engineering College, Xi'an 710038, China;2. School of Mechanics and Civil Architecture, Northwest Polytechnic University, Xi'an 710072, China;3. Airport and Barracks office, Air Force Logistics Ministry of Beijing Military Region, Beijing 100005, China;4. PLA Unit 93514, Tianjin 300202, China

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  • Received Date: April 18, 2010
  • Revised Date: July 07, 2010
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  • In order to test the impact mechanical properties of rock, the amphibolites are subjected to impact loads with different confining pressures (0MPa-6MPa) and strain rates (50s-1-170s-1) by using the improved SHPB of 100mm diameter. The SHPB has confining pressure device. Experimental results show that under the same confining pressure, the dynamic compressive strength of amphibolites are strain-rate dependent, and the strain-rate effect can be expressed by linear approximations, so the relationship between the dynamic increase factor and the logarithm of strain-rate is approximately linear. The strengthening effect gets more prominent with the increase of confining pressure at the same range of strain rates. The damage constitutive model of rock under dynamical load based on weibull distribution is established through combining statistic damage model and visco-elastic model. It is found that the theoretical curves and experimental curves are in good agreement, indicating the constitutive model is reliable. It can offer reference for further research on rock mechanical properties and engineering application in underground engineering.
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