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Blasting Design and High-Energy Explosive Strategies to Achieve Fines Targets for Mill PerformanceBy Jorge Cardenas, Diego Sanchez
Maximizing SAG mill throughput and metallurgical recovery in hard rock operations requires achieving target fragmentation, particularly a sufficient proportion of fines (<25.4 mm). These fines thresho
Jan 26, 2026
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Blasting Design For Increased SAG Mill ProductivityBy M. L. Smith
SAG mill throughput is often a bottleneck in increasing metal productivity. Improved size distribution control in the mill feed can be used to increase mill production. This can be accomplished by con
Jan 1, 1993
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Blasting Effect Analyses on Millisecond Blasting Model Tests with Multiturn Vertical BlastholesBy Qin-yong Ma, Jing-shuang Zhang, Bo Han, Pu Yuan
In order to improve the utilization rate of blasthole and blasting effect in vertical shafts, 5 kinds of millisecond blasting model tests with three circle vertical blastholes have been conducted in v
Jan 1, 2015
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Blasting Effects and Recommendations when Blasting Near Pressurized Buried PipelinesBy John E. Wiegand
This study will discuss the AMAX Coal Co., Penndiana Pipeline Project, which was conducted in conjunction with the following parties: AMAX Coal Industries, (U.S.B.O.M.) United States Bureau of Mines,
Jan 1, 1994
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Blasting Effects and Their ControlBy Lewis L. Oriard
INTRODUCTION In recent years, there has been a trend in the direction of larger drilling equipment and larger diameter blastholes. Although this change has improved the efficiencies and reduced the
Jan 1, 1982
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Blasting Effects And Their Control In Open Pit MiningBy L. L. Oriard
INTRODUCTION In order to make effective plans for the control of blasting effects, it is necessary to understand a few basic principles relating to the behavior of explosives. For the purposes of
Jan 1, 1972
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Blasting for Avalanche Control Above Snoqualmie Pass and Chinook Pass in Washington StateBy Craig Wilbour, John Stimberis, Rob Gibson, Lee Redden
An avalanche is a snow slide. A simple explanation is that the snow on a slope will slide (avalanche) when the snow strength can no longer support its own weight. Snow avalanches happen when the load
Jan 1, 2004
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Blasting for Avalanche Control Above Snoqualmie Pass and Chinook Pass in Washington StateBy Craig Wilbour, John Stimberis, Rob Gibson, Lee Redden
Active avalanche control is the intentional triggering of avalanches while people are kept out of the hazard area. Explosives are frequently the most effective tool for triggering avalances. In a high
Jan 1, 2002
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Blasting for Installation of one of the World’s Largest In-Pit Crushers at an Open Cut Copper MineBy S. Mansfield, A. Sharma
At a large open cut copper mine, in pit crushing and conveying is used to shorten haul routes and minimise stockpiling of ore. This strategy decreases capital expenditure by reducing the number of hau
Jan 1, 2024
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Blasting for Mine to Mill OptimisationBy S S. Kanchibotla, S Morrell
In recent years there has been a growing recognition of the impact that mining practices have on the efficiency of mineral processing operations. Head grade, dilution, particle size distribution and t
Jan 1, 1999
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Blasting for Rescue ApplicationsBy John Norman
This paper will cover blasting techniques that are applicable to underground and other rescue that involves removing obstacles and breaking rock in close proximity to rescuers and subjects.
Feb 1, 2020
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Blasting for Wall Control and Stability using Electronic Detonators at the Bald Mountain Mine, NevadaBy Kurt Oakes, John Williams
Placer Dome, US operates the Bald Mountain Mine. The Bald Mountain Mine is a surface operation located in remote northwestern White Pine County in east-central Nevada, approximately midway between Elk
Jan 1, 2004
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Blasting Harmonics and Controlling Peak Particle VelocityBy T J. Laing, A B. Richards, A J. Moore
Blastholes fired in a pattern with a constant initiation delay create a frequency in the ground vibration similar to that from a percussion instrument, such as a drum, in the air. A constant firing de
Aug 24, 2015
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Blasting Improvements by Using Most Active Rock Variations on BlastBy Alain Blanchier, Anne Charline Sauvage
Rock mass variations have a huge influence on explosives efficiency and on blasting results. Numerous blasting improvements could be gained by taking into account rock mass and its variations. However
Jan 1, 2004
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Blasting In Close Proximity to Densely Populated CommunitiesBy Radhe Krishna, Mutale William Chanda, Timothy Mwale
Blasting as a process is the emplacement of industrial explosives into blast holes suitably located to a free surface and detonated. Every blast hole containing a certain amount of explosive charge un
Jan 1, 2015
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Blasting in Congested AreasBy David Miller, James Santoro
Blasting is often required in urbanized areas to allow for economical execution of construction, demolition, and mining. Several examples of operations that require blasting in built up areas include
Jan 1, 2000
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Blasting in Reactive GroundBy N Tyson
Throughout Australia and the world, there have been in recent years a number of incidents involving the reaction of ammonium nitrate based explosives with ground containing certain types of sulphides.
Jan 1, 2001
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Blasting in the Lower Shaft Station of Atomic Energy of Canada Limited's Underground Research LaboratoryBy P A. Lang, J G. Ayotte, R W. Humphries
Atomic Energy of Canada Limited (AECL) has the responsibility for research, and development of technologies, for the safe and permanent disposal of Canada's nuclear fuel wastes. As part of this compre
Jan 1, 1986
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Blasting Induced Ground Vibrations at an Earthquake Region in TurkeyBy Omer Yilmaz Erkoc, Gulsec Uyar Aldas
Blasting techniques, which have been used for a long time in Turkey, are powerful and economical tool in producing raw material in mining, quarrying, construction .etc. industries. The development of
Jan 1, 2002
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Blasting Logistics at Rio Tinto Coal Australia's Hail Creek MineIn March 2003, Rio Tinto Coal AustraliaÆs (RTCA) new Hail Creek open cut coal mine commenced operations in the Bowen Basin. Hail Creek is a two-seam strip mining operation utilising two 90 m3 dragline
Jan 1, 2007