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Rock Mechanics and Rock Engineering
Erschienen in: Rock Mechanics and Rock Engineering 4/2011

01.07.2011 | Technical Note

Modelling Rock Blasting Considering Explosion Gas Penetration Using Discontinuous Deformation Analysis

verfasst von: Youjun Ning, Jun Yang, Guowei Ma, Pengwan Chen

Erschienen in: Rock Mechanics and Rock Engineering | Ausgabe 4/2011

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Abstract

Explosion gas plays an important role in rock mass fragmentation and cast in rock blasting. In this technical note, the discontinuous deformation analysis method is extended for bench rock blasting by coupling the rock mass failure process and the penetration effect of the explosion gas based on a generalized artificial joint concept to model rock mass fracturing. By tracking the blast chamber evolution dynamically, instant explosion gas pressure is derived from the blast chamber volume using a simple polytropic gas pressure equation of state and loaded on the blast chamber wall. A bench blasting example is carried out. The blast chamber volume and pressure time histories are obtained. The rock failure and movement process in bench rock blasting is reproduced and analysed.
Vorheriger Artikel Non-Circular Rock-Fall Motion Behavior Modeling by the Eccentric Circle Model
Nächster Artikel Back Analysis of Equivalent Permeability Tensor for Fractured Rock Masses from Packer Tests

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Literatur
Bhandari S (1977) On the role of stress waves and quasi-static gas pressure in rock fragmentation by blasting. Acta Astron 6:365–383CrossRef
Firth IR, Taylor DL (2001) Bench blast modeling using numerical simulation and mine planning software. SME Annual Meeting, Denver, Colorado, Feb 2001
Fogelson DE, Duvall WI, Atchison TC (1959) Strain energy in explosion-generated strain pulses. US Bureau of Mines RI 5514:17
Jiao YY, Zhang XL, Zhao J, Liu QS (2007) Viscous boundary of DDA for modeling stress wave propagation in jointed rock. Int J Rock Mech Min Sci 47(7):1070–1076
Kutter HK, Fairhurst C (1971) On the fracture process in blasting. Int J Rock Mech Min Sci 8(3):181–188CrossRef
McHugh S (1983) Crack extension caused by internal gas-pressure compared with extension caused by tensile stress. Int J Fract 21(3):163–176CrossRef
Minchinton A, Lynch PM (1996) Fragmentation and heave modeling using a coupled discrete element gas flow code. In: Mohanty B (ed) Proceedings of the 5th international symposium on rock fragmentation by blasting, Montreal, Canada, Aug 1996, pp 71–80
Mortazavi A, Katsabanis PD (2001) Modelling burden size and strata dip effects on the surface blasting process. Int J Rock Mech Min Sci 38(4):481–498CrossRef
Munjiza A, Latham JP, Andrews KRF (2000) Detonation gas model for combined finite-discrete element simulation of fracture and fragmentation. Int J Numer Methods Eng 49(12):1495–1520CrossRef
Nicholls HR, Hooker VE (1962) Comparative studies of explosives in salt. US Bureau of Mines RI 6041:46
Nilson RH, Proffer WJ, Duff RE (1985) Modelling of gas-driven fractures induced by propellant combustion within a borehole. Int J Rock Mech Min Sci Geomech Abstr 22(1):3–19
Ning YJ (2008) Study on dynamic and failure problems in DDA method and its application. Dissertation, Beijing Institute of Technology (in Chinese)
Ning YJ, Yang J, An XM, Ma GW (2010) Simulation of blast induced crater in jointed rock mass by DDA method. Front Archit Civ Eng China 4(2):223–232CrossRef
Ning YJ, Yang J, An XM, Ma GW (2011) Modelling rock fracturing and blast-induced rock mass failure via advanced discretisation within the discontinuous deformation analysis framework. Comput Geotech. doi:10.​1016/​j.​compgeo.​2010.​09.​003
Paine AS, Please CR (1994) An improved model of fracture propagation by gas during rock blasting-some analytical results. Int J Rock Mech Min Sci Geomech Abstr 31(6):699–706CrossRef
Preece DS (1994) A numerical study of bench blast row delay timing and its influence on percent-cast. In: Proceedings of the eighth international conference of the International Association for Computer Methods and Advances in Geomechanics (IACMAG). West Virgina University, USA, May 2002
Shi GH (1988) Discontinuous deformation analysis—a new numerical model for the static and dynamics of block systems. Dissertation, UC Berkeley
Tordoir A, Wealtherley D, Onederra I, Bye A (2009) A new 3D simulation framework to model blast induced rock mass displacement using physics engines. In: Sanchidrian JA (ed) Proceedings of the 9th international symposium on rock fragmentation by blasting, Granada, Spain, Sep 2009, pp 381–388
Zhu ZM (2009) Numerical prediction of crater blasting and bench blasting. Int J Rock Mech Min Sci 46(6):1088–1096CrossRef
Metadaten
Titel
Modelling Rock Blasting Considering Explosion Gas Penetration Using Discontinuous Deformation Analysis
verfasst von
Youjun Ning
Jun Yang
Guowei Ma
Pengwan Chen
Publikationsdatum
01.07.2011
Verlag
Springer Vienna
Erschienen in
Rock Mechanics and Rock Engineering / Ausgabe 4/2011
Print ISSN: 0723-2632
Elektronische ISSN: 1434-453X
DOI
https://doi.org/10.1007/s00603-010-0132-3

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