This underground nickel mine in the Midwest United States is relatively young with only a few years of production blasting. The operation is employing a sublevel stope mining ... Read more
After speaking with Dyno Nobel, the mine decided to implement BlastWeb®, a centralised blasting system that is specifically designed for use in underground mining operations. ... Read more
A review of seismic data from both blasts showed a twenty percent reduction in vibration using the timing solution developed using DYNO 42 compared to competitor timing sequen ... Read more
The primary benefit from the TITAN emulsion technology is being able to note on the post blast reports that no postblast NOx fumes were present. Additional benefits include in ... Read more
Dyno Nobel’s Titan ∆E 1000 was trialed over a period of four (4) months at AngloGold Ashanti's Cripple Creek & Victor Gold Mining Co. (CC&V) in Cripple Creek, Colorado. P ... Read more
Using Differential Energy, Dyno Nobel was able to reduce the number of boulders at a quarry without adding more blast holes. Read more
This operation was undergoing a complete review of its blasting practices and blast designs in order to ensure the most optimized results were being achieved. Read more
As a new mine starting up development, this gold mine in Northern Ontario used much of the blasted rock for infrastructure in building up roads and construction pads. Read more
The use of SHA (Signature Hole Analysis) and electronic detonators allowed the mine to dial in optimum timing sequences regardless of the number of holes per delay, resulting ... Read more