Year 2010,
Volume: 23 Issue: 4, 401 - 411, 25.03.2010
Abstract
In mining operations, it is necessary to remove the overburden in order to uncover the mineral deposits. When the overburden consists of highly consolidated materials, blasting should be performed to fragment the rocks. Blasting introduces extensive impulsive energy into the surrounding earth. It is expected that most of the explosive energy is used for rock fragmentation. However, part of this energy is transmitted away from the blasting point as ground vibrations. Mitigation of ground vibrations has been discussed by many researchers and their waveform models of blast vibration typically consider a linear superposition of characteristic waveforms. However, blasting produces large strains in the surrounding medium, which implies a non-linear response of the material. It is therefore questionable to use a linear superposition scheme in analyzing waveform. This study aims to investigate the non-linear behavior of blasting phenomena. Therefore, studies for mitigation of ground vibration can be performed more realistic way. Key Words: Non-linear behavior, blasting, vibration, elastic wave, plastic deformation.
References
- Bollinger, G.A., “Blast Vibration Analysis”, Southern Illinois University Press, 132 (1971). [2] Siskind, D.E., Stagg, M.S., Kopp, J.W., Dowding, C.H., “Structure response and damage produced by ground vibrations from surface mine blasting”, RI 8507, 75 (1980). [3] Anderson, D.A., Winzer, S.R., Ritter, A.P., “Blast Design for Optimising Fragmentation While Controlling Frequency of Ground Vibration”, Proceedings of the 8th Conference on Explosives and Blasting Technique, New Orleans, 69–89 (1982).
- Dowding, C.H., “Blast Vibration Monitoring and Control”, Prentice-Hall, Inc., Englewood Cliffs, NJ, (1985). [5] Siskind, D.E., Crum, S.V., Otterness, R.E., Kopp, J.W., “Comperative study of blasting vibrations from Indiana surface coal mine”, USBM RI, 922 (1989). [6] Anderson, D.A., “Blast Monitoring: Regulations, Methods and Control Techniques”, In: J.A. Hudson (ed.): Comprehensive Rock Engineering, Pergamon Press, 4: 95–110 (1993). [7] Persson, P.A., Holmberg, R., Lee, J., “Rock Blasting and Explosives Engineering”, CRC Press, Inc.: 365367 (1994). [8] Muller, B., “Adapting blasting technologies to the characteristics of rock masses in order to improve blasting results and reduce blasting vibrations”, FRAGBLAST, 1: 361-378 (1997). [9] Muller, B., Hohlfeld, Th., “New possibility of reducing blasting vibrations with an improved prognosi”, FRAGBLAST, 1: 379-392 (1997). [10] Hoshino, T., Mogi, G., Shaoquan, K., “Optimum delay interval design in delay blasting”, FRAGBLAST – International Journal of Blasting and Fragmentation, 4: 139–148 (2000). [11] Siskind, D.E., “Vibrations from blasting, International Society of Explosives Engineers”, 120 (2000). [12] Chen, G., Huang, S., “Analysis of Ground Vibrations Caused by Open Pit Production Blasts: A Case Study”, FRAGBLAST – International Journal of Blasting and Fragmentation, 5(1): 1-2, 91-107 (2001). [13] Tripathy, G., Gupta, I.D., “Prediction of Ground Vibrations due to Construction Blasts in Different Types of Rock”, Rock Mech. Rock Eng, 35 (3): 195–204 (2002). [14] Adhikari, G.R., Theresraj, A.I., Venkatesh, S., Balachander, R., Gupta, R.N., “Ground Vibration due to Blasting in Limestone Quarries”, FRAGBLAST – International Journal of Blasting and Fragmentation, 8 (2): 85–94 (2004). [15] Aldas, G.G.U., Ecevitoglu, B., Can, A., Unucok, B., Sagol, O., “Minimization of Blasting Induced Ground Vibrations at TKI GELI Eskihisar Lignite Mine”, Final Report in Turkish, (2005). [16] Aldas, G.G.U., Ecevitoglu, B., “Waveform analysis in mitigation of blast-vibration”, Journal of Applied Geophysics, 66:25-30 (2008). [17] Bullen, K.E., “Introduction to the Theory of Seismology”, Cambridge University Press, 381 (1963).
- Oppenheim A.V., Schafer R.W., “Digital Signal Processing”, Prentice Hall, 585 (1975). [19] Karu, Z.Z., “Signals and Systems Made Ridiculously Simple”, ISBN 0-9633752-1-4, ZiZi Press, 124 (2002). [20] Shearer, P.M., Introduction to Seismology, Cambridge University Press, 260 (1999).
Year 2010,
Volume: 23 Issue: 4, 401 - 411, 25.03.2010
Abstract
References
- Bollinger, G.A., “Blast Vibration Analysis”, Southern Illinois University Press, 132 (1971). [2] Siskind, D.E., Stagg, M.S., Kopp, J.W., Dowding, C.H., “Structure response and damage produced by ground vibrations from surface mine blasting”, RI 8507, 75 (1980). [3] Anderson, D.A., Winzer, S.R., Ritter, A.P., “Blast Design for Optimising Fragmentation While Controlling Frequency of Ground Vibration”, Proceedings of the 8th Conference on Explosives and Blasting Technique, New Orleans, 69–89 (1982).
- Dowding, C.H., “Blast Vibration Monitoring and Control”, Prentice-Hall, Inc., Englewood Cliffs, NJ, (1985). [5] Siskind, D.E., Crum, S.V., Otterness, R.E., Kopp, J.W., “Comperative study of blasting vibrations from Indiana surface coal mine”, USBM RI, 922 (1989). [6] Anderson, D.A., “Blast Monitoring: Regulations, Methods and Control Techniques”, In: J.A. Hudson (ed.): Comprehensive Rock Engineering, Pergamon Press, 4: 95–110 (1993). [7] Persson, P.A., Holmberg, R., Lee, J., “Rock Blasting and Explosives Engineering”, CRC Press, Inc.: 365367 (1994). [8] Muller, B., “Adapting blasting technologies to the characteristics of rock masses in order to improve blasting results and reduce blasting vibrations”, FRAGBLAST, 1: 361-378 (1997). [9] Muller, B., Hohlfeld, Th., “New possibility of reducing blasting vibrations with an improved prognosi”, FRAGBLAST, 1: 379-392 (1997). [10] Hoshino, T., Mogi, G., Shaoquan, K., “Optimum delay interval design in delay blasting”, FRAGBLAST – International Journal of Blasting and Fragmentation, 4: 139–148 (2000). [11] Siskind, D.E., “Vibrations from blasting, International Society of Explosives Engineers”, 120 (2000). [12] Chen, G., Huang, S., “Analysis of Ground Vibrations Caused by Open Pit Production Blasts: A Case Study”, FRAGBLAST – International Journal of Blasting and Fragmentation, 5(1): 1-2, 91-107 (2001). [13] Tripathy, G., Gupta, I.D., “Prediction of Ground Vibrations due to Construction Blasts in Different Types of Rock”, Rock Mech. Rock Eng, 35 (3): 195–204 (2002). [14] Adhikari, G.R., Theresraj, A.I., Venkatesh, S., Balachander, R., Gupta, R.N., “Ground Vibration due to Blasting in Limestone Quarries”, FRAGBLAST – International Journal of Blasting and Fragmentation, 8 (2): 85–94 (2004). [15] Aldas, G.G.U., Ecevitoglu, B., Can, A., Unucok, B., Sagol, O., “Minimization of Blasting Induced Ground Vibrations at TKI GELI Eskihisar Lignite Mine”, Final Report in Turkish, (2005). [16] Aldas, G.G.U., Ecevitoglu, B., “Waveform analysis in mitigation of blast-vibration”, Journal of Applied Geophysics, 66:25-30 (2008). [17] Bullen, K.E., “Introduction to the Theory of Seismology”, Cambridge University Press, 381 (1963).
- Oppenheim A.V., Schafer R.W., “Digital Signal Processing”, Prentice Hall, 585 (1975). [19] Karu, Z.Z., “Signals and Systems Made Ridiculously Simple”, ISBN 0-9633752-1-4, ZiZi Press, 124 (2002). [20] Shearer, P.M., Introduction to Seismology, Cambridge University Press, 260 (1999).
There are 3 citations in total.
Details
| Primary Language | English |
|---|---|
| Journal Section | Physics |
| Authors | |
| Publication Date | March 25, 2010 |
| Published in Issue | Year 2010 Volume: 23 Issue: 4 |