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Observations from the Laboratory Testing of Resistorized Electric DetonatorsBy David Leidel, James Stuart
The 50 ohm resistorized electric detonator is commonly used in the oilfield for initiation of wireline conveyed perforating guns and other downhole explosive tools. This type of electric detonator pro
Jan 1, 2010
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Estimating Explosive Gas Pressure DistributionBy John N. Jr Edl
Geokinetics, Inc. has pioneered an in-situ oil shale retorting production process that provides the requisite void space for producing a permeable rubble bed, within the retort zone, by using the expl
Jan 1, 1983
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Evaluation of Velocity of Detonation of Permitted ExplosivesBy R R. Singh, U K. Dey, S K. Roy
"Commercial explosives being a heterogeneous mixture of many chemical compounds in prefixed proportion, their velocity of detonation (VOD) may vary from batch to batch, due to variations in the propor
Jan 1, 2007
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Insurance - Safety is the Only PolicyBy Charles D. Sutton
Safety is an important part of the everyday activity for the explosives industry. The overall accident experience has not been adverse, however, many insurance companies have eliminated coverage for e
Jan 1, 1987
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Application of Event Tree Analysis to Explosive Terrorism RiskBy Natalie Zeleznik, Brian Hawkins, David Bradley, Rachel Gooding, Patrick Wilson
"An Event Tree Analysis (ETA) is an established approach for logically deconstructing and assessing scenarios for probabilistic risk assessment. This deconstruction into a series of understandable eve
Jan 1, 2017
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Influence of delay time accuracy on the fracture process in smooth blastingBy Yoshiharu Tanaka, Keita Morooka, Masaaki Yamamoto, Katsuhiko Kaneko
Smooth blasting is the standard method for underground rock excavation, to reduce over break and remaining rock damage. We already utilized the high accuracy of the electronic delay detonator to inves
Jan 1, 1998
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Reducing Coal Loss During Cast Blasting At Rix’s Creek MineBloomfield Collieries Rix’s Creek Mine is an open cut coal operation located in the Hunter Valley region of Australia. The mine produces approximately 1.1 mt of saleable product per year and routinely
Jan 1, 2006
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Blasting Practices at the Fording River OperationsBy Murray B. Lytle
The Fording River Operations of Fording Coal Ltd. in southeastern British Columbia is producing 45 million long tons of clean metallurgical coal for shipment to the Japanese steel industry on a 15 yea
Jan 1, 1978
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The Evolution of Loading 4 1/2 Inch Diameter Upholes at Kidd Creek No. 1 MineBy R Malo, A Yetter
The use of large diameter blastholes for underground mining began approximately twelve years ago and are now routinely employed in a variety of ore types and stope designs. These large boreholes, rang
Jan 1, 1984
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48 Inch Production Blast Holes in OilsandsBy Michael McDougall
"Suncor Inc. Oilsands Group, Mining Operation in Northern Alberta, Canada, has beenblasting to loosen the oilsands to increase production and decrease maintenance of the hugebucketwheel excavators for
Jan 1, 1993
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Control Blasting at Sherman MineBy Peter N. Calder, John N. Tuomi
The development of a successful control blasting program for an open pit iron mine in hard jointed rock is described. The objectives and mechanics of control blasting are discussed. Design and impleme
Jan 1, 1980
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Dewatering Small Diameter Bore HolesBy R J. Hill
Blasters are well aware of the problems and expense faced when trying to load in wet bore holes; problems of poor coupling and poor density, as well as the expense of higher priced cartridge product.
Jan 1, 1986
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Managing Production Blasting Vibrations: A Machine Learning Based Prediction of PPV in Chilean Copper MinesBy J. Rafael Otaíza, Francisco Mardones
This work has addressed the problem of creating a predictive model of the maximum particle velocities in the rock mass (PPV). The model designed specifically can model the subsequent vibrations of bla
Jan 21, 2025
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Magazines -- Current Regulations & Common SenseBy Paul E. Thompson
Current magazine regulations are designed to avoid injury or property damage caused by accidental detonation as well as to store explosives securely. The primary emphasis appears to be the avoidance o
Jan 1, 1990
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The Use of Handidet Non-Electric Detonator Assemblies to Reduce Blast-Induced Overpressure at AECL's Underground Research LaboratoryBy D P. Proudfoot, S G. Keith, D P. Onagi
A number of aspects of the Canadian concept for nuclear fuel waste disposal are being assessed by Atomic Energy of Canada Limited (AECL) in a series of experiments at its Underground Research Laborato
Jan 1, 1996
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Reduction of Vibration in a Low Frequency Zone at Construtora Sultepa EV QuarryBy D. C. Valdemeri, Oppermann J. P. Z., R. G. Schaarschmidt, C. S. Mendonca
This case study was conducted in an aggregate company, located at Estância Velha town, RS, Brazil. The study was based on the results of vibration monitoring mainly in terms of PPV (peak particle velo
Jan 1, 2015
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Electronic Blast Initiation – The Evolving Perception of Australian Mining OperationsBy Greg Wyartt
Although electronic detonators and blast initiation systems have been commercially available for several decades, uptake in the Australian mining industry has been very slow when compared to other glo
Jan 1, 2019
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Accurate Delay Detonation with Shock-TubeBy W. J. Birch, R. Farnfield
All shock-tube based initiation systems have a time lag relating to the propagation velocity of the shock-tube itself. This paper examines the exploitation of this inherent time lag to achieve delay b
Jan 1, 2009
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Journal: You Be the Judge - A Study on Ethics (789e5c3c-8c01-4005-9710-845a93dd4cf9)In the March/April 2006 issue of the Journal, we published an ethical dilemma called “Blowing the Whistle.” We received many interesting responses to the article as requested. Some of the responses ar
Jan 1, 2007
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Fire Protection Provided by Detonator ContainersBy Lon D. Santis
The Code of Federal Regulations Title 30, Parts 56, 57, 75, and 77 require that detonators and explosives be separated by four inches of hardwood or equivalents when transported together in mines. Thi
Jan 1, 1997