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Blasting Trials to Control and Monitor Displacement of Narrow Vein Gold OreBy P Geddes, K Grohs, C K. McKenzie, M Morrish
Low grade surface gold mining at the Acacia Resources, Union Reefs Gold Mine in Australia's Northern Territory, involves the excavation of benches in three slices after blasting. Blast patterns span z
Jan 1, 1998
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Blasting at Dacotah CementBy Lyle Dennis
Emphasis on increased production while maintaining rigid quality standards has necessitated a change in blasting technology at Dacotah Cement's limestone and gypsum quarries. The following three metho
Jan 1, 1996
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Optimization of Development Drilling and Blasting in an Underground MineBy B Mohanty, G Ludwig
A thorough assessment of development drilling and blasting practice was carried out at two underground mines at INCO operations in Thompson, Manitoba. The study showed that significant improvement in
Jan 1, 1998
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High Performance Throw Blasting with i-kontm Electronic Detonators in an Environmentally Sensitive Area at Stratford Coal, NSW, Australia.Henry Walker Eltin (HWE) are the mining contractors for Gloucester Coal at Stratford mine, which is in an environmentally sensitive area in the Avon Valley, NSW, Australia. Normal blasting at Stratfor
Jan 1, 2003
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Characterization of the Pre and Post Blast EnvironmentsBy Jack Elorenta
We often hear that, "Blasting was an art, but now blasting is now a science". 'Scientific' blasting implies that we have quantified and reproducible measurements of the feedstock and product of the bl
Jan 1, 2003
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Electronic Detonator Performance Evaluation Barrick Goldstrike Mines Inc.By Doug Bartley, Roy McKinstry, John Floyd
In March of 2001, Barrick Goldstrike became the first surface gold operation in North America to evaluate the advantages of electronic detonators. A detailed study was conducted to quantify the benefi
Jan 1, 2003
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Journal: Safety Talk / Flyrock Resulting From Surface Mine BlastingBy Robert Morgan
With improved methods for designing and detonating shots the potential for flyrock can be significantly decreased, but there are few absolutes in blasting; therefore blasters must learn from the mista
Jan 1, 2001
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Planning for Optimum Dragline PerformanceBy Mark A. Williams, James D. Humphrey
Without question, draglines are one if not the most effective tools available to the surface mining industry for overburden handling. With few moving parts and a two- or threeman crew, this machine si
Jan 1, 1990
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Practical Experiences with the Use of Air-Decks in Quarry BlastingBy Peter Moser, Frank Chiapetta, Sacha Diaj, Florian Bauer
Good toe breakage and a flat working bench after blasting are important parameters to achieve a high productivity during material loading and reduce the necessity for secondary blasting. Good toe brea
Jan 1, 2009
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Optimization of Blasting Pattern in an Underground Coal Mine for Maximum Production with Minimum Roof DisturbanceBy R. Singh, M. Roy, D. Singh
Success of a blasting pattern in Blasting-off-the-solid (BOS) in Bord (Room) & Pillar method of coal mining is judged by the percentage of pull achieved vis-à-vis the yield of coal produced in a blast
Jan 1, 2003
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Prediction of the Ground Vibration Attenuation Induced by Blasting for the Different Rock MassesBy A. Karadogan, G. Tuncer, A. Kahriman, S. Gorgun
This paper presents the results of ground vibration measurements induced by blasting operations at five different sites located close to the residential areas. Within the scope of this study, ground v
Jan 1, 2003
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Blast Design Methodology for Surface Mines: An Integrated Approach to Optimization - Part 2By G. R. Adhikari
Step 4: Selection of explosives and initiation system Various types of explosives are manufactured in India and a wide choice is available among them that include nitroglycerin based explosives, slurr
Jan 1, 2002
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Explosion Shock Separation: A New Approach in Pretreatment Technique of Lignocellulosic MaterialsBy Wang Xuguang, Tian Ruigi, Xiong Shangbin, Xiong Daiyu
Combining action features of explosive shock with those of natural lignocellulosic biomass structure, we have successfully developed a new explosive shock dilatation and separation technique for pretr
Jan 1, 1998
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Cautious Blasting in Critical Areas at Ramagundam Super Thermal Power StationBy N. Jayaraman, V. Srikant, A. Radhakrishna
Addition of a 500 MW unit to the existing units at Ramagundum Thermal Power Station requires blasting of large volumes of rock very close to sensitive installations like Turbo generator, Generator tra
Jan 1, 2003
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Blasting a Tunnel Through Folsom DamBy Gregg A. Scott, Gordon F. Revey
"The Folsom Dam is a 340-foot-high concrete gravity dam with embankment wing dams located on the American River about 20 miles northeast of Sacramento, California. Folsom Dam is operated andmaintained
Jan 1, 1999
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Journal: Safety Talk / Regulatory Compliance - Transportation Compliance ChallengesBy Ann Barron
“Hurry up” is the latest battle cry at explosives companies struggling to stay in compliance with the ever-growing onslaught of government regulations. The pressure continues to mount on industry prof
Jan 1, 2006
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Blasting in the New Mellinnium: Planning for the UnexpectedBy Steve Dillingham
The horrific events surrounding September 11th left Americans with a feeling of sudden helplessness...the shock of being unprepared and powerless. From this tragedy, we can understand the need to prep
Jan 1, 2003
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The Journal of Explosives Engineering Vol 21 No 3 - Dynamite Daze (5324bd6e-ab26-4a55-9824-a273bcd40423)In the office, on the wall to the right of my desk is a large map of the world. Some people stick pins in maps like this to show where they’ve been. If I did that my map would be a mess and look like
Jan 1, 2004
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Changes Contained In Amended ATF P 5400.7, Also known as the "Orange Book"By ATF Publications
The following is a summary of the changes that were incorporated into the new Federal Explosives Regulations, 27 CFR Part 55, dated 9/2000. However, in light of the recent events of September 2001, a
Jan 1, 2002
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A Study of Misfires in MiningBy Larry R. Fletcher
A misfire results when explosives fail to detonate as planned during a mine blast. Accidental detonation of misfires is a frequent cause of personal injury, equipment damage, and lost production. In a
Jan 1, 1983