Description |
1 online resource |
Contents |
<P><STRONG>Keynotes</STRONG></P><P>Application of high performance computing for earthquake hazard and disaster estimation <BR>M. Hori</P><P>Monitoring, assessment and mitigation of rock burst and gas outburst induced seismicity in longwall top coal caving mining <BR>S. Durucan, W. Cao, W. Cai, J-Q, Shi, A. Korre G. Si, S. Jamnikar & J. Roser</P><P>An overview of research into understanding coal burst <BR>I. Canbulat, C. Zhang, & J. Watson</P><P>Fracture tests on tocks under different loading rates: Progressive fracture mechanism and rate dependence of fracturing profiles <BR>F. Dai</P><P>Spatial variation in stress in seismogenic zones in South African gold mines <BR>H. Ogasawara, A. Ishida, K. Sugimura, Y. Yabe, S. Abe, T. Ito, A. Funato, H. Kato, B. Liebenberg, G. Hofmann, L. Scheepers, R.J. Durrheim, The SATREPS & DSeis Teams</P><P>Assessment of a complex large slope failure at Kışlaköy open pit mine, Turkey <BR>R. Ulusay, Ö. Aydan & A. Ersen</P><P>Seismic Response and Stability of Rock Tunnels: -- Its History and Problems Today <BR>K. Kamemura</P><P>Dynamic analysis and investigation of vibrations induced by train from the subway station <BR>K. Shahriar, M. Mahmoodi, & A. Torkashvand</P><P><STRONG>T1: Laboratory tests on Dynamic Responses of Rocks and Rock Masses; Fracturing of Rocks and Associated Strong Motions</STRONG></P><P>Determination of dynamic elastic properties from the frequency of natural vibration by using impact acoustics <BR>T. Yamabe, M. Osada & C. Adachi</P><P>Analysis of rock fracture toughness (mode I) by dynamics simulation code <BR>C. Song, D. Kim, S.M. Lee, J.Y. Oh, J.H. Kim, J.Y. Park, S.G. Choi & J.W. Cho</P><P>Evaluation of elastic region of the surrounding bedrock using the cyclic unconfined compression test of rocks <BR>K. Murakami, K. Yokota, A. Iwamori, T. Okada & A. Sekiguchi</P><P>Experimental study on dynamic fracturing behavior under blasting loading in PMMA <BR>S. Jeon, S. Choi, S. Lee, B. Jeon & H. Jeong</P><P>Study on dynamic shear strength and deformation characteristics of rock discontinuity. <BR>J. Yoshida, T. Sasaki, & R. Yoshinaka</P><P>Laboratory observations of fracture plane reactivation induced by pore pressure in Kimachi sandstone <BR>D. Asahina, M. Sato, & M. Takahashi</P><P>The behaviour of Oya tuff pillars under static and shock loading <BR>T.K.M Dintwe, T. Seiki, Ö. Aydan & N. Tokashiki</P><P>Experimental investigation on the fatigue mechanical properties ofintermittent jointed rock under random cyclic uniaxial compression <BR>Y. Liu & F. Dai</P><P>Experimental study of scale effect in rock discontinuities on stick-slip behavior <BR>R. Kiyota, N. Iwata, Ö. Aydan & N. Tokashiki</P><P>Evaluation of the Dynamic Shear Strength of Rocks under Confining Pressure <BR>G. Min, S. Oh, S. Park, S. Cho, Y. Yoo & L. Park</P><P>A new constitutive equation for a solid material <BR>E. Nakaza</P><P>Measuring seismic properties of fine sediments in an off-Ear |
Summary |
Rock dynamics has become one of the most important topics in the field of rock mechanics and rock engineering, and involves a wide variety of topics, from earthquake engineering, blasting, impacts, failure of rock engineering structures as well as the occurrence and prediction of earthquakes, induced seismicity, rock bursts to non-destructive testing and explorations. Rock dynamics has wide applications in civil and infrastructural, resources and energy, geological and environmental engineering, geothermal energy, and earthquake hazard management, and has become one of the most topical areas. 2019 Rock Dynamics Summit contains 8 keynote addresses and 128 regular full papers that were presented at the 2019 Rock Dynamics Summit (2019 RDS, Okinawa, Japan, 7-11 May 2019), a specialized conference jointly organized by the Rock Dynamics Committee of the Japanese Society of Civil Engineers (JSCE-RDC), the Japanese Society for Rock Mechanics (JSRM), and which was supported by the International Society for Rock Mechanics and Rock Engineering (ISRM) and the Turkish National Society for Rock Mechanics (TNSRM). The contributions cover a wide range of topics on the dynamic behavior of rock and rock masses and scientific and engineering applications, and include: - Laboratory tests on Dynamic Responses of Rocks and Rock Masses / Fracturing of Rocks and Associated Strong Motions- Estimation Procedures and Numerical Techniques of Strong Motions Associated with the Rupture of Earth's Crust and Some Strong Motion- Dynamic Response and Stability of Rock Foundations, Underground Excavations in Rock, Rock Slopes Dynamic Responses and Stability of Stone Masonry Historical Structures and Monuments- Induced Seismicity- Dynamic Simulation of Loading and Excavation- Blasting and machinery induced vibrations- Rockburst, Outburst, Impacts- Nondestructive Testing Using Shock Waves- Case Histories of Failure Phenomenon in Rock Engineering 2019 Rock Dynamics Summit contains the state-of-the-art in rock dynamics, and will be invaluable to professionals and academics interested in the latest advances in new techniques for experiments, analytical and numerical modelling as well as monitoring in dynamics of rocks and rock engineering structures |
Notes |
Ömer Aydan, University of the Ryukyus, Okinawa, Japan, Takashi Ito, Tohoku University, Sendai, Japan Takafumi Seiki, Utsunomiya University, Japan, Katsumi Kamemura, Fukada Geological Institute, Tokyo, Japan Naoki Iwata, Chuden Engineering Consultants Co., Ltd., Hiroshima, Japan |
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Online resource; title from PDF title page (EBSCO, viewed July 10, 2019) |
Subject |
Rock mechanics -- Congresses
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Rock mechanics
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Genre/Form |
Electronic books
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Conference papers and proceedings
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Form |
Electronic book
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Author |
Aydan, Ömer, editor.
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Ito, Takashi, editor
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Seiki, Takafumi, editor
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Kamemura, Katsumi, editor
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Iwata, Naoki, editor
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ISBN |
9780429327933 |
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0429327935 |
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9781000576702 |
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1000576701 |
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9781000571844 |
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100057184X |
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9781000566987 |
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1000566986 |
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