Improved workflow during the planning stage allows for an increase in production output.
Automatic drill placement module will never generate a pattern that cannot be drilled.
By optimizing blast fragmentation, the electrical energy consumption from crushing operations is reduced.
Match detonation and explosion state energies to maximize ore recovery and minimize dilution.
Automated processes guided by user input parameters deliver consistent designs to site standards.
Aegis has the potential to eliminate CO2 from the environment equivalent to removing 20 million autos from our roads annually.
Aegis Designer is a comprehensive ring design generation tool that allows planners to create and compare stope designs in seconds. With one unified platform, you can create tailored solutions for drill and blast designs, assign costs to processes, and associate predicted fragmentation with a blast.
Lay out your entire stope in seconds using user-defined drilling and blasting parameters.
Navigate quickly and easily with Designer’s modern and intuitive interface. Users spend less time learning the software and more time designing the blast.
Designer integrates with a geological block model to enhance ring design with dynamic real-time slicing of the block model in multiple views. Planners can consider ore grade while they make design tweaks to rings superimposed on the block model.
Highly customizable report templates and IREDES export allow designs to get to production as seamlessly as possible.
Lay out your entire stope in seconds using user-defined drilling and blasting parameters.
Navigate quickly and easily with Designer’s modern and intuitive interface. Users spend less time learning the software and more time designing the blast.
Designer integrates with a geological block model to enhance ring design with dynamic real-time slicing of the block model in multiple views. Planners can consider ore grade while they make design tweaks to rings superimposed on the block model.
Highly customizable report templates and IREDES export allow designs to get to production as seamlessly as possible.
Aegis Analyzer is a powerful analysis tool to help you get your blast design right the first time. Compare several approaches to the same problem using peer-reviewed analysis models with the click of a button. Analyzer provides planners the ability to see the effects of explosive and rock properties on underground ring blasting outcomes, effectively adapt to changing market conditions, and generate plans for several different ore grades.
Predict the shape of future blasts by using a 3D scan of a cavity after the blast.
The Break Analyzer matches the explosive detonation state and explosion state energies to maximize ore recovery and minimize dilution. The target fragmentation can be optimized and sized for haulage equipment, diminishing the reliance on expensive underground crushers.
The software has been specifically designed to enable a variety of ‘what-if’ scenarios to be tested and applied to complex ore-bodies. Finding the perfect ring layout for the highest recovery at the lowest cost has never been easier.
The Break Analyzer consists of the following important components:
The advanced costing module is modelled after spreadsheet-based pivot tables. The cost model approach allows the user to estimate the cost of a project using past knowledge and compare the difference in costs between scenarios.
Predict the shape of future blasts by using a 3D scan of a cavity after the blast.
The Break Analyzer matches the explosive detonation state and explosion state energies to maximize ore recovery and minimize dilution. The target fragmentation can be optimized and sized for haulage equipment, diminishing the reliance on expensive underground crushers.
The software has been specifically designed to enable a variety of ‘what-if’ scenarios to be tested and applied to complex ore-bodies. Finding the perfect ring layout for the highest recovery at the lowest cost has never been easier.
The Break Analyzer consists of the following important components:
The advanced costing module is modelled after spreadsheet-based pivot tables. The cost model approach allows the user to estimate the cost of a project using past knowledge and compare the difference in costs between scenarios.