This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
L. Ma, Z. Li, J. Liu, L. Duan, J. Wu, Mechanical properties of coral concrete subjected to uniaxial dynamic compression, Construction and Building Materials 199 (2019) 244 – 255. doi:https://doi.org/10.1016/j conbuildmat.2018.12.032. URL http://www.sciencedirect.com/science/article/pii/S0950061818330125MaL.LiZ.LiuJ.DuanL.WuJ.Mechanical properties of coral concrete subjected to uniaxial dynamic compressionConstruction and Building Materials1992019244255https://doi.org/10.1016/jconbuildmat.2018.12.032. URLhttp://www.sciencedirect.com/science/article/pii/S095006181833012510.1016/j.conbuildmat.2018.12.032Search in Google Scholar
H. Agrawal, A. Mishra, Probabilistic analysis on scattering effect of initiation systems and concept of modified charge per delay for prediction of blast induced ground vibrations, Measurement 130 (2018) 306–317. doi:https://doi.org/10.1016/j.measurement.2018.08.032 URL http://www.sciencedirect.com/science/article/pii/S0263224118307759AgrawalH.MishraA.Probabilistic analysis on scattering effect of initiation systems and concept of modified charge per delay for prediction of blast induced ground vibrationsMeasurement1302018306317https://doi.org/10.1016/j.measurement.2018.08.032http://www.sciencedirect.com/science/article/pii/S026322411830775910.1016/j.measurement.2018.08.032Search in Google Scholar
B. Duan, H. Xia, X. Yang, Impacts of bench blasting vibration on the stability of the surrounding rock masses of roadways, Tunneling and Underground Space Technology 71 (2018) 605–622. doi:https://doi.org/10.1016/j.tust.2017.10.012.URLhttp://www.sciencedirect.com/science/article/pii/S0886779817303371DuanB.XiaH.YangX.Impacts of bench blasting vibration on the stability of the surrounding rock masses of roadwaysTunneling and Underground Space Technology712018605622https://doi.org/10.1016/j.tust.2017.10.012.URLhttp://www.sciencedirect.com/science/article/pii/S088677981730337110.1016/j.tust.2017.10.012Search in Google Scholar
C. E. Anderson Jr, T. Behner, C. E. Weiss, Mine blast loading experiments, International Journal of Impact Engineering 38 (8-9) (2011) 697–706.AndersonC. E. JrBehnerT.WeissC. E.Mine blast loading experimentsInternational Journal of Impact Engineering388-9201169770610.1016/j.ijimpeng.2011.04.005Search in Google Scholar
T. Ngo, P. Mendis, A. Gupta, J. Ramsay, Blast loading and blast effects on structures–an overview, Electronic Journal of Structural Engineering 7 (S1) (2007) 76–91.NgoT.MendisP.GuptaA.RamsayJ.Blast loading and blast effects on structures–an overviewElectronic Journal of Structural Engineering7S12007769110.56748/ejse.671Search in Google Scholar
M. Monjezi, M. Hasanipanah, M. Khandelwal, Evaluation and prediction of blast-induced ground vibration at shur river dam, iran, by artificial neural network, Neural Computing and Applications 22 (7-8) (2013) 1637–1643.MonjeziM.HasanipanahM.KhandelwalM.Evaluation and prediction of blast-induced ground vibration at shur river dam, iran, by artificial neural networkNeural Computing and Applications227-820131637164310.1007/s00521-012-0856-ySearch in Google Scholar
H. R. Nicholls, C. F. Johnson, W. I. Duvall, Blasting vibrations and their effects on structures, US Government Printers, 1971.NichollsH. R.JohnsonC. F.DuvallW. I.Blasting vibrations and their effects on structuresUS Government Printers1971Search in Google Scholar
J. F. Wiss, Control of vibration and blast noise from surface coal mining, Bureau of Mines, Open File Rept.WissJ. F.Control of vibration and blast noise from surface coal miningBureau of MinesOpen File ReptSearch in Google Scholar
R. Kumar, D. Choudhury, K. Bhargava, Determination of blast-induced ground vibration equations for rocks using mechanical and geological properties, Journal of Rock Mechanics and Geotechnical Engineering 8 (3) (2016) 341–349.KumarR.ChoudhuryD.BhargavaK.Determination of blast-induced ground vibration equations for rocks using mechanical and geological propertiesJournal of Rock Mechanics and Geotechnical Engineering83201634134910.1016/j.jrmge.2015.10.009Search in Google Scholar
R. Nateghi, Prediction of ground vibration level induced by blasting at different rock units, International Journal of Rock Mechanics and Mining Sciences 48 (6) (2011) 899–908.NateghiR.Prediction of ground vibration level induced by blasting at different rock unitsInternational Journal of Rock Mechanics and Mining Sciences486201189990810.1016/j.ijrmms.2011.04.014Search in Google Scholar
H. Hao, Y. Wu, G. Ma, Y. Zhou, Characteristics of surface ground motions induced by blasts in jointed rock mass, Soil Dynamics and Earthquake Engineering 21 (2) (2001) 85–98.HaoH.WuY.MaG.ZhouY.Characteristics of surface ground motions induced by blasts in jointed rock massSoil Dynamics and Earthquake Engineering2122001859810.1016/S0267-7261(00)00104-4Search in Google Scholar
M. King, L. Myer, J. Rezowalli, Experimental studies of elastic-wave propagation in a columnar-jointed rock mass, Geophysical prospecting 34 (8) (1986) 1185–1199.KingM.MyerL.RezowalliJ.Experimental studies of elastic-wave propagation in a columnar-jointed rock massGeophysical prospecting34819861185119910.1111/j.1365-2478.1986.tb00522.xSearch in Google Scholar
M. Khandelwal, T. Singh, Prediction of blast-induced ground vibration using artificial neural network, Interna- tional Journal of Rock Mechanics and Mining Sciences 46 (7) (2009) 1214–1222.KhandelwalM.SinghT.Prediction of blast-induced ground vibration using artificial neural networkInterna- tional Journal of Rock Mechanics and Mining Sciences46720091214122210.1016/j.ijrmms.2009.03.004Search in Google Scholar
M. Monjezi, M. Ghafurikalajahi, A. Bahrami, Prediction of blast-induced ground vibration using artificial neural networks, Tunnelling and Underground Space Technology 26 (1) (2011) 46–50.MonjeziM.GhafurikalajahiM.BahramiA.Prediction of blast-induced ground vibration using artificial neural networksTunnelling and Underground Space Technology2612011465010.1016/j.tust.2010.05.002Search in Google Scholar
J. Torano, R. Rodriguez, Simulation of the vibrations produced during the rock excavation by different methods, WIT Transactions on Modelling and Simulation 33.ToranoJ.RodriguezR.Simulation of the vibrations produced during the rock excavation by different methodsWIT Transactions on Modelling and Simulation 33Search in Google Scholar
Y. S. Chae, Design of excavation blasts to prevent damage, Civil Engineering 48 (4).ChaeY. S.Design of excavation blasts to prevent damageCivil Engineering484Search in Google Scholar
W. I. Duvall, D. E. Fogelson, Review of criteria for estimating damage to residences from blasting vibrations, US Department of the Interior, Bureau of Mines, 1962.DuvallW. I.FogelsonD. E.Review of criteria for estimating damage to residences from blasting vibrationsUS Department of the Interior, Bureau of Mines1962Search in Google Scholar
A. T. Edwards, T. Northwood, Experimental studies of the effects of blasting on structures, Division of Building Research, National Research Council, 1960.EdwardsA. T.NorthwoodT.Experimental studies of the effects of blasting on structuresDivision of Building Research, National Research Council1960Search in Google Scholar
U. S. B. of Mines, D. Siskind, Structure response and damage produced by ground vibration from surface mine blasting, US Department of the Interior, Bureau of Mines New York, 1980.U. S. B. of MinesSiskindD.Structure response and damage produced by ground vibration from surface mine blastingUS Department of the Interior, Bureau of Mines New York1980Search in Google Scholar
K. Avellan, E. Belopotocanova, M. Puurunen, Measuring, monitoring and prediction of vibration effects in rock masses in near-structure blasting, Procedia engineering 191 (2017) 504–511.AvellanK.BelopotocanovaE.PuurunenM.Measuring, monitoring and prediction of vibration effects in rock masses in near-structure blastingProcedia engineering191201750451110.1016/j.proeng.2017.05.210Search in Google Scholar
J. Guggenberger, G. Mu¨ller, Erschu¨tterungen, in: Taschenbuch der Technischen Akustik, Springer, 2004, pp. 767–801.GuggenbergerJ.Mu¨llerG.Erschu¨tterungenTaschenbuch der Technischen AkustikSpringer200476780110.1007/978-3-642-18893-0_23Search in Google Scholar
M. Khandelwal, T. Singh, Prediction of blast induced ground vibrations and frequency in opencast mine: a neural network approach, Journal of sound and vibration 289 (4-5) (2006) 711–725.KhandelwalM.SinghT.Prediction of blast induced ground vibrations and frequency in opencast mine: a neural network approachJournal of sound and vibration2894-5200671172510.1016/j.jsv.2005.02.044Search in Google Scholar
Y. Zeng, H. Li, X. Xia, B. Liu, H. Zuo, J. Jiang, Blast-induced rock damage control in fangchenggang nuclear power station, china, Journal of Rock Mechanics and Geotechnical Engineering 10 (5) (2018) 914–923.ZengY.LiH.XiaX.LiuB.ZuoH.JiangJ.Blast-induced rock damage control in fangchenggang nuclear power station, chinaJournal of Rock Mechanics and Geotechnical Engineering105201891492310.1016/j.jrmge.2018.04.010Search in Google Scholar
X. Zhao, G. Wang, W. Lu, M. Chen, P. Yan, C. Zhou, Effects of close proximity underwater explosion on the nonlinear dynamic response of concrete gravity dams with orifices, Engineering Failure Analysis 92 (2018) 566–586.ZhaoX.WangG.LuW.ChenM.YanP.ZhouC.Effects of close proximity underwater explosion on the nonlinear dynamic response of concrete gravity dams with orificesEngineering Failure Analysis92201856658610.1016/j.engfailanal.2018.06.016Search in Google Scholar
B. Elevli, E. Arpaz, Evaluation of parameters affected on the blast induced ground vibration (bigv) by using relation diagram method (rdm), Acta Montanistica Slovaca 15 (4) (2010) 261.ElevliB.ArpazE.Evaluation of parameters affected on the blast induced ground vibration (bigv) by using relation diagram method (rdm)Acta Montanistica Slovaca1542010261Search in Google Scholar
H. Koch, Zur m¨oglichkeit der abgrenzung von lademengen bei steinbruchsprengungen nach festgestellten erschu¨tterungsst¨arken, Nobel Hefte 24 (1958) 92–96.KochH.Zur m¨oglichkeit der abgrenzung von lademengen bei steinbruchsprengungen nach festgestellten erschu¨tterungsst¨arkenNobel Hefte2419589296Search in Google Scholar
G. Athanasopoulos, P. Pelekis, Ground vibrations from sheetpile driving in urban environment: measurements, analysis and effects on buildings and occupants, Soil dynamics and earthquake engineering 19 (5) (2000) 371–387.AthanasopoulosG.PelekisP.Ground vibrations from sheetpile driving in urban environment: measurements, analysis and effects on buildings and occupantsSoil dynamics and earthquake engineering195200037138710.1016/S0267-7261(00)00008-7Search in Google Scholar
W. I. Duvall, B. Petkof, Spherical propagation of explosion-generated strain pulses in rock, Tech. rep., Bureau of Mines (1958).DuvallW. I.PetkofB.Spherical propagation of explosion-generated strain pulses in rockTech. rep., Bureau of Mines1958Search in Google Scholar
A. Ghosh, J. J. Daemen, Statistics–a key to better blast vibration predictions, in: Proceedings of the 26th US Symposium on Rock Mechanics, Rapid City, 1985, pp. 1141–1149.GhoshA.DaemenJ. J.Statistics–a key to better blast vibration predictionsProceedings of the 26th US Symposium on Rock MechanicsRapid City198511411149Search in Google Scholar
R. Gupta, P. P. Roy, B. Singh, On a blast induced blast vibration predictor for efficient blasting, in: Proceedings of the 22nd international conference of safety in Mines, Beijing, China, 1988, pp. 1015–1021.GuptaR.RoyP. P.SinghB.On a blast induced blast vibration predictor for efficient blastingProceedings of the 22nd international conference of safety in MinesBeijing, China198810151021Search in Google Scholar
P. Roy, Putting ground vibration predictions into practice, Colliery Guardian 241 (2) (1993) 63–7.RoyP.Putting ground vibration predictions into practiceColliery Guardian24121993637Search in Google Scholar
B. Mu¨ller, J. Hausmann, H. Niedzwiedz, Comparison of different methods of measuring and calculating blast vibrations in rock masses, in: The 4th EFEE World Conference, Vienna, 2007.Mu¨llerB.HausmannJ.NiedzwiedzH.Comparison of different methods of measuring and calculating blast vibrations in rock massesThe 4th EFEE World ConferenceVienna2007Search in Google Scholar
M. Monjezi, H. A. Khoshalan, A. Y. Varjani, Prediction of flyrock and backbreak in open pit blasting operation: a neuro-genetic approach, Arabian Journal of Geosciences 5 (3) (2012) 441–448.MonjeziM.KhoshalanH. A.VarjaniA. Y.Prediction of flyrock and backbreak in open pit blasting operation: a neuro-genetic approachArabian Journal of Geosciences53201244144810.1007/s12517-010-0185-3Search in Google Scholar
P. P. Roy, Vibration control in an opencast mine based on improved blast vibration predictors, Mining Science and Technology 12 (2) (1991) 157–165.RoyP. P.Vibration control in an opencast mine based on improved blast vibration predictorsMining Science and Technology122199115716510.1016/0167-9031(91)91642-USearch in Google Scholar
U. Langefors, B. Kihlstrom, The modern techniques of rock blasting. john wiely and sons, Inc, New York, 438pp.LangeforsU.KihlstromB.The modern techniques of rock blastingjohn wiely and sons, IncNew York438Search in Google Scholar
S. Murmu, P. Maheshwari, H. K. Verma, Empirical and probabilistic analysis of blast-induced ground vibrations, International Journal of Rock Mechanics and Mining Sciences 103 (2018) 267–274.MurmuS.MaheshwariP.VermaH. K.Empirical and probabilistic analysis of blast-induced ground vibrationsInternational Journal of Rock Mechanics and Mining Sciences103201826727410.1016/j.ijrmms.2018.01.038Search in Google Scholar
N. Ambraseys, A. Hendron, Dynamic behaviour of rock masses, Rock Mechanics in Engineering Practice (1968) 203–207Cited By 118.AmbraseysN.HendronA.Dynamic behaviour of rock massesRock Mechanics in Engineering Practice1968203207Cited By 118Search in Google Scholar
R. Rai, T. Singh, A new predictor for ground vibration prediction and its comparison with other predictors, Indian Journal of Engineering and Materials Sciences 11 (3) (2004) 178–184, cited By 30. URL https://www.scopus.com/inward/record.uri?eid=2-s2.0-6344246317&partnerID=40&md5=2aebef919c009924f500c07622f81484RaiR.SinghT.A new predictor for ground vibration prediction and its comparison with other predictorsIndian Journal of Engineering and Materials Sciences1132004178184cited By 30. URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-6344246317&partnerID=40&md5=2aebef919c009924f500c07622f81484Search in Google Scholar
I. Indian Standard, Criteria for safety and design of structures subjected to underground blast, Bulletin No: IS-6922, Bureau of Indian Standards, New Delhi, India.IndianI.Standard, Criteria for safety and design of structures subjected to underground blastBulletin No: IS-6922Bureau of Indian StandardsNew Delhi, IndiaSearch in Google Scholar
H. Ak, A. Konuk, The effect of discontinuity frequency on ground vibrations produced from bench blasting: a case study, Soil Dynamics and Earthquake Engineering 28 (9) (2008) 686–694.AkH.KonukA.The effect of discontinuity frequency on ground vibrations produced from bench blasting: a case studySoil Dynamics and Earthquake Engineering289200868669410.1016/j.soildyn.2007.11.006Search in Google Scholar
A. Ghosh, J. J. Daemen, et al., A simple new blast vibration predictor (based on wave propagation laws), in: The 24th US Symposium on Rock Mechanics (USRMS), American Rock Mechanics Association, 1983.GhoshA.DaemenJ. J.et alA simple new blast vibration predictor (based on wave propagation laws)The 24th US Symposium on Rock Mechanics (USRMS)American Rock Mechanics Association1983Search in Google Scholar
G. M. Simangunsong, S. Wahyudi, Effect of bedding plane on prediction blast-induced ground vibration in open pit coal mines, International Journal of Rock Mechanics and Mining Sciences (79) (2015) 1–8.SimangunsongG. M.WahyudiS.Effect of bedding plane on prediction blast-induced ground vibration in open pit coal minesInternational Journal of Rock Mechanics and Mining Sciences7920151810.1016/j.ijrmms.2015.08.004Search in Google Scholar
M. Iphar, M. Yavuz, H. Ak, Prediction of ground vibrations resulting from the blasting operations in an open-pit mine by adaptive neuro-fuzzy inference system, Environmental Geology 56 (1) (2008) 97–107.IpharM.YavuzM.AkH.Prediction of ground vibrations resulting from the blasting operations in an open-pit mine by adaptive neuro-fuzzy inference systemEnvironmental Geology56120089710710.1007/s00254-007-1143-6Search in Google Scholar
C. Coulombez, Analyse et optimisation des pratiques d’abattage a l’explosif dans une carri`ere de granulats.CoulombezC.Analyse et optimisation des pratiques d’abattage a l’explosif dans une carri`ere de granulatsSearch in Google Scholar
B. Skipp, Ground vibration–codes and standards, Ground dynamics and man-made processes. The Institution of Civil Engineers, United Kingdom (1998) 29–41.SkippB.Ground vibration–codes and standards, Ground dynamics and man-made processesThe Institution of Civil EngineersUnited Kingdom19982941Search in Google Scholar
C. H. Dowding, R. D. Hryciw, A laboratory study of blast densification of saturated sand, Journal of Geotechnical Engineering 112 (2) (1986) 187–199.DowdingC. H.HryciwR. D.A laboratory study of blast densification of saturated sandJournal of Geotechnical Engineering1122198618719910.1061/(ASCE)0733-9410(1986)112:2(187)Search in Google Scholar
A. P. J.F. SEMBLAT, Waves and vibrations in soils: Earthquakes, traffic, shocks, construction works.A. P. J.F. SEMBLATWaves and vibrations in soils: Earthquakes, traffic, shocks, construction worksSearch in Google Scholar
D. Grothe, P. Reinders, Advanced vibration management in quarries using a predictive blast vibration model, Vienna Confer-ence Proceedings, European Federation of Explosives Engineers, UK (2007) 93–106.GrotheD.ReindersP.Advanced vibration management in quarries using a predictive blast vibration modelVienna Confer-ence Proceedings, European Federation of Explosives EngineersUK200793106Search in Google Scholar
D. Park, B. Jeon, S. Jeon, A numerical study on the screening of blast-induced waves for reducing ground vibration, Rock mechanics and rock engineering 42 (3) (2009) 449–473.ParkD.JeonB.JeonS.A numerical study on the screening of blast-induced waves for reducing ground vibrationRock mechanics and rock engineering423200944947310.1007/s00603-008-0016-ySearch in Google Scholar
M. Ramulu, A. Raina, A. Chakraborty, A. Reddy, J. Jethwa, Influence of burden on the intensity of ground vibrations in a limestone quarry, in: Proceedings of the International Conference fragmentation and blasting, Fragblast, 2002, pp. 617–624.RamuluM.RainaA.ChakrabortyA.ReddyA.JethwaJ.Influence of burden on the intensity of ground vibrations in a limestone quarryProceedings of the International Conference fragmentation and blastingFragblast2002617624Search in Google Scholar
T. B. Afeni, S. K. Osasan, Assessment of noise and ground vibration induced during blasting operations in an open pit mine — a case study on Ewekoro limestone quarry, Nigeria, Mining Science and Technology (China) 19 (4) (2009) 420 – 424. doi:https://doi.org/10.1016/S1674-5264(09)60078-8 URL http://www.sciencedirect.com/science/article/pii/S1674526409600788AfeniT. B.OsasanS. K.Assessment of noise and ground vibration induced during blasting operations in an open pit mine — a case study on Ewekoro limestone quarryNigeriaMining Science and Technology (China)1942009420424https://doi.org/10.1016/S1674-5264(09)60078-8http://www.sciencedirect.com/science/article/pii/S167452640960078810.1016/S1674-5264(09)60078-8Search in Google Scholar
