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Underground Longhole Blasting near Large-diameter Booster Fans
By Norm Disley, Kingsley Hortin, Gertjan Bekkers
As part of the expansion of the Kidd Creek Mine to 2,682 meters (8800 feet) below surface, two largediameter 3000kW (4000HP) booster fans were installed at the 6000 level. Shortly after commissioning
Jan 1, 2008
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Projectile Generator Design for Underground Coal Mine Seal Testing
By Ethan Steward, Kyle Perry
Underground coal mines have several dangers, one the most hazardous of which is the possibility of an explosion caused by the ignition of methane gas. To reduce ventilation costs, coal mines have the
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Charleroi Locks and Dam - Old River Wall Explosive Demolition - Final Stage - Phase 2
By David Harrison, Brian Harrison
The Army Corps of Engineers completed the Charleroi Lock and Dam in 1932. It is located on the Monongahela river approximately 22 miles (35k) south of Pittsburgh in Charleroi, Pennsylvania. It is comp
Jan 1, 2018
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Metafex®: Safe, Energetic Explosive Replacements
By David Davison
Metafex®* is an inert material that is more energetic than explosives when activated. Because Metafex is inert until activated (a moment before use), it can profoundly change the logistics of systems
Jan 1, 2006
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Outdoor Magazine Construction & Security
By Walter Jr Duke
The security of explosive materials is a vital concern to every mine, quarry and contractor engaged in blasting. Proper construction of magazines and sufficient locking mechanisms are the fundamental
Jan 1, 1991
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Seismic Monitoring of Production Blasts
By Klaus G. Hinzen
Seismic observations offer the only possibility for remote sensing of physical processes like shock-front spreading, material crushing and ground movement. A better understanding of these processes wi
Jan 1, 1989
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Surface Vibration Measurements from Deep Hole Blasts
By Jesus Pascual, Jose Sanchidrian, Pablo Segarra
The surface vibration field in the area above an underground mine prior to its development has been investigated, in order to assess the vibration levels expected in existing buildings and in the plan
Jan 1, 2002
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Electro-Magnetic Induction Blasting System
By Koichi Kurokawa, Takeo Ueda, Yoji Tasaki, Masashi Nakano
We have developed a new firing system which simplifies the handling and extensively increases the safety in electric blasting operations. Based on the principle of the transformer, this system is oper
Jan 1, 1986
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Influence of Sample Rate on Underwater Blast Pressure Measurements
By Catherine T. Aimone-Martin, Elena Oana Jacobs, Brent Meins
Accurate pressure measurements during underwater detonations are critical for the protection of structures and mitigating impacts to fish and marine mammals. Current guidelines that limit underwater p
Jan 1, 2019
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Longer Delay Periods Reduce Rockfall Hazard at a Contour Mine
By Virgil J. Stachura, Larry R. Fletcher
The Bureau of Mines conducted a series of delayed blasting experiments at a West Virginia contour coal mine which resulted in smoother highwalls. The highwalls were smoother due to reduced overbreak a
Jan 1, 1985
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Blast Assessment and Optimization for High Quarry Face - Blasting
By Frank Sames
Where applicable, high production benches can improve efficiency in quarrying. Quality control, geological, cost or other considerations might result in the development of quarry benches higher than 3
Jan 1, 1996
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Predicting Blast Vibrations More Conveniently than with the USBM Method
By R. F. Favreau, Patrice Favreau
"A blast with explosives creates vibration waves in the zone around the blast.The prediction of the intensity of vibrations is important because people in the cinity demand that the vibrations do not
Jan 1, 2015
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Underwater Blasting Effects on Structures –A Model Approach
By Chris Breeds, Larry Leone, Jerry Wallace
One of the Authors was recently retained to provide a professional engineering analysis of the potential impacts from underwater blasts used to enlarge intake tunnels at the Cheesman Dam near Denver i
Jan 1, 2012
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Pre-Splitting With The New AIRDEK Technique
By David G. Borg, John Bussey
The new AIRDEK (tm) technique for pre-splitting in surface coal mines produces highwall conditions that have greater safety with lower costs for explosives, labor, and drilling. Successful application
Jan 1, 1988
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Blasting of the Twin Creek's Highwall Failure
By James A. Bachmann, Christopher J. Gray
On December 26, 1994, at 1:00 am, Santa Fe Pacific Gold's Twin Creeks Mine experienced a major highwall failure involving over 2.5 million tons. The resulting effects of this slide were thousands of o
Jan 1, 1996
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A Multiple Deck Burn Round for Shaft Sinking
By Thomas L. Barkley
This paper describes an unusual design for a 12 foot diameter, 30 foot deep circular shaft shot in a close in urban environment less than 100 feet from occupied structures. It uses diagrams, video foo
Jan 1, 1994
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The Efficiency of Blasting Versus Crushing and Grinding
By Jack Eloranta
"This paper compares energy requirements for blasting, crushing and grinding. By tracking electricalconsumption for various powder factors, a general trend has appeared. This study involved over 100mi
Jan 1, 1998
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Close-In Blasting at Cornell
By Jeff Yaro, Steven P. Case, Carl Kish
This project involved the construction of a new 4-story library on the campus of Cornell University in Ithaca, New York. The new building was constructed completely below grade, adjoining several of t
Jan 1, 1992
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The Efficiency of Blasting Versus Crushing and Grinding (b74142ad-057d-4d47-8cdb-a72f6046d338)
By Jack Eloranta
This paper compares energy requirements for blasting, crushing and grinding. By tracking electrical consumption for various powder factors, a general trend has appeared. This study involves over 100 m
Jan 1, 1997
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Deep water excavation with shaped charges: a case history in Lake Mead, Boulder City, Nevada, USA
By Roberto Folchi, Hans Wallin
Lake Mead, the largest man-made reservoir in the United States, is located about 30 miles southeast of Las Vegas, Nevada. For the construction of Lake Mead third water intake, which is entirely placed
Jan 1, 2012