Название |
Features of assessing seismic effects of blasting operations |
Информация об авторе |
Mining Institute, Ural Branch, Russian Academy of Sciences, Perm, Russia:
A. V. Verkholantsev, Leading Engineer, vercholancev@gmail.com D. Yu. Shulakov, Head of Laboratory, Candidate of Engineering Sciences R. A. Dyagilev, Senior Researcher, Candidate of Physico-Mathematical Sciences |
Библиографический список |
1. Mosinets V. N. Crushing and seismic action of blast in rocks. Moscow : Nedra, 1976. 271 p. 2. Baron V. L., Kantor V. Kh. Blasting technology and equipment in the USA. Moscow : Nedra, 1989. 376 p. 3. Sadovsky M. A. Geophysics and physics of explosion: Selectals. Moscow : Nauka, 2004. 439 p. 4. Kutuzov B. N., Sovmen V. K., Ekvist B. V., Vartanov V. G. Safety of seismic and air impact of mass explosions : tutorial. Moscow : Izdatelstvo MGGU, 2004. 180 p. 5. Chan Kuang Hieu. Experimental research and estimate of influence of borehole charge design on seismic intensity o f large-scale blasting in open-pit coal mines in Vietnam. Gornyi Zhurnal. 2014. No. 9. pp. 118–120. 6. Ganopolskiy M. I., Pupkov V. V., Nenakhov I. A., Fomenkova V. E. Rationale for seismically safe blasting conditions. Vzryvnoe delo. 2015. No. 113/70. pp. 347–365. 7. Harder S. H., Miller K. C., Snelson C. M. The relative effect of explosive charge configuration on seismic amplitudes. Proceedings of the 33th Monitoring Research Review: Ground-Based Nuclear Explosion Monitoring Technologies. Tucson, 2011. pp. 467–472. 8. Inoue H., Sasaoka T., Shimada H., Hamanaka A. Study on control of fragmentation size by changing blasting pattern at open pit metal mine. Earth Science and Technology : proceedings of International Symposium. Fukuoka, 2014. pp. 214–217. 9. Isheysky V. A. About the grain-size distribution of blasted rock from different zones of destruction. Scientific Reports on Resource Issues. Freiberg : Technische University Bergakademie, 2014. pp. 202–207. 10. Singh P. K., Roy M. P., Amalendu Sinha. Controlled Blasting for Safe and Efficient Mining Operations at Rampura Agucha Mine in India. Proceedings of the 8th International Conference on Physical Problems of Rock Destruction. China, 2014. pp. 137–151. 11. Haibao Yi, Haitao Yang, Li Ming, Han Bin, Zheng Lujing. Study on open-pit precision control blasting of easily weethered rock and its application. Proceedings of the 8th International Conference on Physical Problems of Rock Destruction. China, 2014. pp. 157–160. 12. Duan Y., Xiong D., Yao L., Wang F., Xu G. Advanced Technology for Satting Out of Blastholes and Measurement while Drilling. Proceedings of the 11th International Symposium on Rock Fragmentation by Blasting. Sydney, 2015. pp. 593–598.
13. Industrial Safety Federal Code: Safety Regulations for Blasting. Moscow : NTTs PB, 2016. Series 13. Documents on Safety, Supervision and Permission in Blasting and Explosive Production. Iss. 14. 332 p. 14. Grib G. V., Pazynich A. Yu., Grib N. N. Estimation the influence of natural factors on seismic effect from multiple explosions. Izvestiya Samarskogo nauchnogo tsentra Rossiyskoy akademii nauk. 2013. Vol. 15. No. 3(2). pp. 626–630. 15. Zaalishvili V. B. Dependence of the spectral characteristics of seismic waves on the structure of the upper part of the section. Geologiya i geofizika Yuga Rossii. 2014. No. 4. pp. 15–44. 16. SP 283.1325800.2016. High critical building objects. Rules of seismic microzonation. Moscow : Minstroy Rossii, 2016. 21 p. 17. GOST R 52892–2007. Vibration and shock. Vibration of buildings. Measurement of vibration and evaluation of its effects on structure. Moscow : Standartinform, 2008. 20 p. 18. RB G-05–039–96. Guidance on accidental explosion hazard analysis and mechanism parameters determination. Moscow, 2000. 24 p. 19. Antipov V. V., Ofrikhter V. G. Modern nondestructive method of researching of geologicalengineering section. Vestnik Permskogo natsionalnogo issledovatelskogo politekhnicheskogo universiteta. Stroitelstvo i arkhitektura. 2016. Vol. 7, No. 2. pp. 37–49. 20. Nakamura Y. A method for dynamic characteristics estimation of subsurface using microtremor on the ground surface. Quarterly Report of RTRI. 1989. Vol. 30, No. 1. pp. 25–33. 21. Sapozhnikov A. I. Buildings and structures vibrations under the dynamic effects of different nature. Stroitelnye materialy, oborudovanie, tekhnologii XXI veka. 2015. No. 1(192). pp. 27–32. 22. Menshikov P. V., Sinitsyn V. A., Shemenev V. G. Method for determining actual range of delay intervals for rational parameters of blast holes grid with the use of electronic blasting DAVEYTRONIC. Uspekhi sovremennogo estestvoznaniya. 2016. No. 3. pp. 183–189. 23. Hashash Y. M. A. Nonlinear and Equivalent Linear Seismic Site Response of One-Dimensional Soil Columns. Version 6.1 : User Manual. 2016. Available at: http://deepsoil.cee.illinois.edu/Files/DEEPSOIL_User_Manual_v6.pdf (accessed: 19.03.2019). 24. Products. EduPro Civil Systems, Inc. Available at: http://proshake.com (accessed: 19.03.2019). 25. Malovichko D. A. Analysis of S-wave velocities in the top section by surface waves. Gornoe Ekho. 2007. No. 1(27). pp. 28–32. 26. Verkholantsev A. V., Shulakov D. Yu. Estimation of seismic effect drilling-and-blasting operations for buildings. Geofizika. 2014. No. 4. pp. 40–45. 27. Verkholantsev A. V. Estimation procedure of ground conditions. Modern Processing and Interpretation of Seismology Data : X International Seismological School Proceedings. Obninsk : GS RAN, 2015. pp. 63–65. |