From the alternating-sign explosion response of rocks to the pendulum waves in stressed geomedia. Part III
Tóm tắt
Từ khóa
Tài liệu tham khảo
Adushkin, V.V. and Malovichko, A.A. (Eds.), Vzryvy i zemletryaseniya na territorii Evropeiskoi chasti Rossii (Explosions and Earthquakes in the Territory of European Russia), Moscow: GEOS, 2013.
Oparin, V.N. et al., Destruktsiya zemnoi kory i protsessy samoorganizatsii v oblastyakh sil’nogo tekhnogennogo vozdeistviya (Crust Destruction and Self-Organization in the Areas of Heavy Production Impact), Novosibirsk: SO RAN, 2012.
Oparin, V.N., Sashurin, A.D., Kulakov, G.I., et al., Sovremennaya geodinamika massiva gornykh porod verkhnei chasti litosfery: istoki, parametry, vozdeistvie na ob’ekty nedropol’zovaniya (Modern Geodynamics in the Earth’s Crust: Sources, Parameters, Impact), Novosibirsk: SO RAN, 2008.
Sobolev, G.A., Osnovy prognoza zemletryasenii (Principles of Earthquake Prediction), Moscow: Nauka, 1993.
Myachkin, V.I., Protsessy podgotovki zemletryasenii (Earthquake Growth Processes), Moscow: Nauka, 1978.
Kasahara, K., Earthquake Mechanics, Cambridge University Press, 1981.
Rodionov, V.N., Sizov, I.A., and Tsevtkov, V.M., Osnovy geomekhaniki (Basic Geomechanics), Moscow: Nedra, 1986.
Oparin, V.N., Annin, B.D., Chugui, Yu.V., et al., Metody i izmeritel’nye pribory dlya modelirovaniya i naturnykh issledovanii nelineinykh deformatsionno-volnovykh protsessov v blochnykh massivakh gornykh porod (Methods and Measurement Instrumentation for Modeling and In Situ Investigation of Nonlinear Deformation-Wave Processes in Blocky Rock Masses), Novosibirsk: SO RAN, 2007.
Oparin, V.N., Bagaev, S.N., Malovichko, A.A., et al., Metody i sistemy seismodeformatsionnogo monitoringa tekhnogennykh zemletryasenii i gornykh udarov (Methods and Systems for Seismic and Deformation Monitoring of Induced Earthquakes and Rock Bursts), vol. 1, Novosibirsk: SO RAN, 2010.
Oparin, V.N., Bagaev, S.N., Malovichko, A.A., et al., Metody i sistemy seismodeformatsionnogo monitoringa tekhnogennykh zemletryasenii i gornykh udarov (Methods and Systems for Seismic and Deformation Monitoring of Induced Earthquakes and Rock Bursts), vol. 2, Novosibirsk: SO RAN, 2010.
Rockbursts and Seismicity in Mines, RaSiM5, South African Institute of Mining and Metallurgy, 2001.
Kurlenya, M.B., Oparin, V.N., and Eremenko, A.A., Mine Seismic Data Scanning Method, Dokl. RAN, 1993, vol. 333, no. 6.
Oparin, V.N., Tapsiev, A.P., Vostrikov, V.I., et al., On Possible Causes of Increase in Seismic Activity in Mine Fields in the Oktyabrsky and Taimyrsky Mines of the Norilsk Deposit in 2003, J. Min. Sci., 2004, vol. 40, nos. 4–6 (Parts I–III), 2005, vol. 41, no. 1 (Part I).
Oparin, V.N., Emanov, A.F., Vostrikov, V.I., and Tsibizov, L.V. Kinetics of Seismic Emission in Coal Mines in Kuzbass, J. Min. Sci., 2013, vol. 49, no. 4, pp. 521–536.
Mendecki, A.J., Keynote Address: Data-Driven Understanding of Seismic Rock Mass Response to Mining, Dynamic Rock Mass Response to Mining-RaSiM5 Proceedings, Johannesburg, 2000.
Zhurkov, S.N., Kinetic Concept of Fracture in Solids (Thermofluctuation Mechanism), Vestn. AN SSSR, 1968, no. 3.
Zhurkov, S.N., Kuksenko, V.S., and Petrov, V.A., Rock Failure Prediction, Fiz. Zemli, 1977, no. 6.
Mansurov, V.A. (Ed.), Physics of Rock Failure Prediction, Proc. 1st Int. Workshop, Krasnoyarsk: SibGAU, 2002.
Adushkin, V.A. and Oparin, V.N., From the Alternating-Sign Explosion Response of Rocks to the Pendulum Waves in Stressed Geomedia, Part I, J. Min. Sci., 2012, vol. 48, no. 2, pp. 203–222.
Adushkin, V.A. and Oparin, V.N., From the Alternating-Sign Explosion Response of Rocks to the Pendulum Waves in Stressed Geomedia, Part II, J. Min. Sci., 2013, vol. 49, no. 2, pp. 175–209.
Kurlenya, M.V., Oparin, V.N., and Vostrikov, V.I., Formation of Elastic Wave Packets under Impulse Excitation in Blocky Media. Pendulum Waves υµ, Dokl. RAN, 1993, vol. 333, no. 4.
Oparin, V.N., Energy Criterion of Bulk Rock Failure, Miner’s Week-2009 Proc., Moscow: MGGU, 2009.
Oparin, V.N., Pendulum Waves and “Geomechanical Temperature,” Proc. 2nd Russia-China Forum on Nonlinear Geomechanics and Geodynamics in Deep-Level Mining, Novosibirsk: IGD SO RAN, 2012.
Oparin, V.N., Basic Methodology for Multi-Level Geomechanics-Geodynamics Safety Monitoring in Mining in Tectonically Active Areas, Proc. 6th Int. Conf. Innovation Development in Mining: Problems and Prospects, Almaty, 2013.
Bychkov, I.V. Oparin, V.N., and Potapov, V.P., Cloud Technologies in Mining Geoinformation Science, J. Min. Sci., 2014, vol. 50, no. 1, 142–154.
Adushkin, V.V. and Spivak, A.A., Podzemnye vzryvy (Underground Explosions), Moscow: Nauka, 2007.
Adushkin, V.V. and Spivak, A.A., Geomekhanika krupnomasshtabnykh vzryvov (Large-Scale Blast Geomechanics), Moscow: Nedra, 1993.
Kocharyan, G.G. and Spivak, A.A., Dinamika deformirovaniya blochnykh massivov gornykh porod (Deformation Dynamics in Blocky Rock Masses), Moscow: Akademkniga, 2003.
Sadovsky, M.A., Natural Lumpiness of Rocks, Dokl. AN SSSR, 1979, vol. 247, no. 4.
Sadovsky, M.A., Discreteness of Rocks, Fiz. Zemli, 1982, no. 12.
Kurlenya, M.V. and Oparin, V.N., Scale Factor of Phenomenon of Zonal Disintegration of Rock and Canonical Series of Atomic and Ionic Radii, J. Min. Sci., 1996, vol. 32, no. 2, pp. 81–90.
Oparin, V.N., Yushkin, V.F., Akinin, A.A. and Balmashnova, E.G., A New Scale of Hierarchically Structured Representations as a Characteristic for Ranking Entities in a Geomedium, J. Min. Sci., 1998, vol. 34, no. 5, pp. 387–401.
Oparin, V.N. and Tanaino, A.S. Kanonicheskaya shkala ierarkhicheskikh predstavlenii v gornom porodovedenii (Canonical Scale for Hierarchy Representation in Rock Science in Mining), Novosibirsk: Nauka, 2011.
Sadovsky, M.A., Adushkin, V.V., and Spivak, A.A., Dimension of Irreversible Deformation Zones under Blasting in a Block-Structured Medium, Izv. AN SSSR, Fiz. Zemli, 1989, no. 9.
Rodionov, V.N., Adushkin, V.V., Kostyuchenko, V.N., et al., Mekhanicheskii effekt podzemnogo vzryva (Mechanical Effect of Underground Explosion), Moscow: Nedra, 1971.
Shemyakin, E.I., Fisenko, G.L., Kurlenya, M.V., Oparin, V.N., et al., Phenomenon of Zonal Disintegration of Rocks around Underground Excavations, Dokl. AN SSSR, 1986, vol. 289, no. 5.
Oparin, V.N., Tapsiev, A.P., Rozenbaum, M.A. et al., Zonal’naya dezintegratsiya gornykh porod i ustoichivost’ podezmnykh vyrabotok (Zonal Disintegration of Rocks and Underground Opening Stability), Novosibirsk: SO RAN, 2008.
Kurlenya, M.V., Oparin, V.N., and Eremenko, A.A., Relations of Linear Block Dimensions of Rock to Crack Opening in the Structural Hierarchy of Masses, J. Min. Sci., 1993, vol. 29, no. 3, pp. 197–203.
Oparin, V.N. and Simonov, B.F., Nonlinear Deformation-Wave Processes in the Vibrational Oil Geotechnologies, J. Min. Sci., 2010, vol. 46, no. 2, pp. 95–112.
Kurlenya, M.V. and Oparin, V.N., Problems of Nonlinear Geomechanics. Part II, J. Min. Sci., 2000, vol. 36, no. 4, pp. 305–326.
Itogi nauchnoi i nauchno-organizatsionnoi deyatel’nosti za 2008 god (Research and Scientific-Organization Activity Resume for 2008), Novosibirsk: IGD SO RAN, 2009.
Itogi nauchnoi i nauchno-organizatsionnoi deyatel’nosti za 2012 god (Research and Scientific-Organization Activity Resume for 2012), Novosibirsk: IGD SO RAN, 2013.
Kurlenya, M.V., Oparin, V.N., and Vostrikov, V.I., Pendulum-Type Waves. Part II: Experimental Methods and Main Results of Physical Modeling, J. Min. Sci., 1996, vol. 32, no. 4, pp. 245–273.
Kurlenya, M.V., Oparin, V.N., and Vostrikov, V.I., Pendulum-Type Waves. Part III: Data of On-Site Observations, J. Min. Sci., 1996, vol. 32, no. 5, pp. 341–361.
Kurlenya, M.V., Oparin, V.N., and Vostrikov, V.I., Anomalously Low Friction in Block Media, J. Min. Sci., 1997, vol. 33, no. 1, pp. 1–11.
Vostrikov, V.I., Oparin, V.N., and Chervov, V.V., On Some Features of Solid-Body Motion under Combined Vibrowave and Static Actions, J. Min. Sci., 2000, vol. 36, no. 6, pp. 523–528.
Tishchenko, I.V., Chervov, V.V, and Gorelov, A.I., Effect of Additional Vibration Exciter and Coupled Vibro-Percussion Units on Penetration Rate of Pipe in Soil, J. Min. Sci., 2013, vol. 49, no. 3, pp. 450–458.
Li, Li-ping, Theoretical Analysis of Rock Burst Induced by Anomalously Low Friction Effect in Deep Block Media Mass, Proc. 3rd Sino-Russian Joint Scientific-Technical Forum on Deep-Level Rock Mechanics and Engineering, China, Nanjing, 2013.
Yakovitskaya, G.E., Metody i tekhnicheskie sredstva diagnostiki kriticheskikh sostoyanii gornykh porod na osnove elektromagnitnoi emissii (Methods and Means for Detection of Limit States in Rocks Based on Electromagnetic Emission), V.N. Oparin (Ed.), Novosibirsk: Parallel’, 2008.
Kurlenya, M.V., Oparin, V.N., and Vostrikov, V.I., Geomechanical Conditions for Quasi-Resonances in Geomaterials and Block Media, J. Min. Sci., 1998, vol. 34, no. 5, pp. 379–386.
Kurlenya, M.V., Oparin, V.N., Revuzhenko, A.F., and Shemyakin, E.I., Some Features of Rock Response to Blasting in Near Zone, Dokl. AN SSSR, 1987, vol. 293, no. 1.
Kurlenya, M.V., Oparin, V.N., Akinin, A.A., Yushkin, V.F. et al., On Some Features of Evolution of Harmonic Acoustic Signals in Loading Block Media with a Cylindrical Cavity, J. Min. Sci., 1999, vol. 35, no. 6, pp. 566–586.
Kurlenya, M.V., Oparin, V.N., Balmashnova, E.G., and Vostrikov, V.I., On Dynamic Behavior of “Self-Stressed” Block Media. Part I: One-Dimensional Mechanico-Mathematical Model, J. Min. Sci., 2001, vol. 37, no. 1, pp. 1–9.
Oparin, V.N., Balmashnova, E.G., and Vostrikov, V.I., On Dynamic Behavior of “Self-Stressed” Block Media. Part II: Comparison of Theoretical and Experimental Data, J. Min. Sci., 2001, vol. 37, no. 5, pp. 455–461.
Kurlenya, M.V., Oparin, V.N., Matasova, G.G., Morozov, P.F., Tapsiev, A.P., Tapsiev, G.A., and Fedorenko, B.V., Procedure for Plotting Maps of the Disturbance of Rock Masses from Geophysical Logging Data. Part III: Comparative Analysis of Geophysical Maps of Rock Mass Disturbance with Geological Data, J. Min. Sci., 1992, vol. 28, no. 2, pp. 105–113.
Oparin, V.N., Principles of Geophysical Well Defectoscopy. Part I: Spectral Analysis and Defect Measures, J. Min. Sci., 1982, vol. 18, no. 6, 468–477.
Kurlenya, M.V. and Oparin, V.N., Sign-Variable Reaction of Rocks to Dynamic Impacts, J. Min. Sci., 1990, vol. 26, no. 4, pp. 291–300.
Glushikhin, V.P. (Ed.), Metodicheskie ukazaniya po issledovaniyu proyavlenii gornogo davleniya na modelyakh iz ekvivalentnykh materialov (Instructional Guidelines on Studying Events due to Rock Pressure on Models Made of Equivalent Materials), Leningrad: VNIMI, 1976.
Gol’din, S.V. Yushin, V.I., Ruzhich, V.V. and Smekalin, O.P., Slow Motions-A Myth or Reality? Fizicheskie osnovy prognozirovaniya razrusheniya gornykh porod (Basic Physics of Rock Failure Prediction), Krasnoyarsk: SibGAU, 2002.
Guberman, Sh.A., D-Waves and Earthquakes. Theory and Analysis of Seismic Observations, Vychisl. Seismol., 1972, issue 12.
Zhadin, V.V., Connection of Strong Earthquakes in Time and Space, Izv. AN SSSR, Fiz. Zemli, 1984, no. 1.
Mogi, K., Bull Earthquake, Res. Inst. Univ. Tokyo, 1968, vol. 46.
Oparin, V.N., Yakovitskaya, G.E., Vostretsov, A.G., Seryakov, V.M., and Krivetsky, A.V., Mechanical-Electromagnetic Transformations in Rocks on Failure, J. Min. Sci., 2013, vol. 49, no. 3, pp. 343–356.
Vikulin, A.V., XX Russian Conference on Geodynamics and Stress State of the Earth’s Interior, Vestn. KRAUNTs. Nauki o Zemle, 2013, no. 2, issue 22.
Kuksenko, V.S., Manzhikov, B.Ts., and Mansurov, V.A., Growth of Failure Micro-Source, Fiz. Zemli, 1985, no. 7.
Kuksenko, V.S., et al., Nucleation of Submicroscopic Cracks in Stressed Solids, Int. J. Fracture Mechanics, 1975. vol. 11, no. 4.
Tamuzh, V.P. and Kuksenko, V.S., Mikromekhanika razrusheniya polimernykh materialov (Failure Micromechanics in Polymeric Materials), Riga: Zinatne, 1978.
Petrov, B.A., Bashkarev, A.Ya., and Vettegren’, V.I., Fizicheskie osnovy prognozirovaniya razrusheniya konstruktsionnykh materialov (Basic Physics of Failure Prediction in Structural Materials), Saint-Petersburg: Politekhnika, 1993.
Vettegren’, V.I., Kuksenko, V.S., Svetlov, V.N., and Kryuchkov, M.A., Kinetics and Hierarchy of Failure of Materials under Loading, Proc. 1st Workshop Basic Physics of Rock Failure Prediction, Krasnoyarsk: SibGAU, 2002.
Sadovsky, M.A., Kedrov, O.K., and Pasechnik, I.P., Seismic Energy and Volume of Source Areas of Crust Earthquakes and Underground Blasts, Dokl. AN SSSR, 1985, vol. 283, no. 5.
Kurlenya, M.V. and Oparin, V.N., Problems of Nonlinear Geomechanics. Part I, J. Min. Sci., 1999, vol. 35, no. 3, pp. 216–230.
Adushkin, V.V. and Turuntaev, S.B., Tekhnogennye protsessy v zemnoi kore (opasnosti i katastrofy) (Production-Induced Processes in Crust: Hazards and Accidents), Moscow: INEK, 2005.
Adushkin, A.A. and Kocharyan, G.G., Proc. 2nd Russian Conference Trigger Effects in Geosystems, Moscow: GEOS, 2013.