Software

State-of-the-Art Data Analysis & Software Services.

Nobel Fire^®

Dyno Nobel's new and evolving premium holistic blasting software platform.

• Electronic Shot Report (ESR): Allows creation of an Electronic Shot Report that meets regulatory and customer requirements.
• Mobile App: Tablet based application designed to be utilised in a field-based capacity either to design shots on bench or utilise design data from the Nobel Fire desktop application to input drilling, hole quality control and charging information to a real time cloud-based network, improving the quality and consistency of blasting results.
• Advanced Vibration Prediction: Vibration prediction that accounts for variability in blasting, including confinement, charge weight, bearing to structure, geological differences, and destructive and constructive interference, for the most accurate vibration prediction in the industry.
• Vibration Timing Optimisation: A signature waveform convolution engine that quickly helps identify timing pairs that help reduce vibration at a structure.
• Fracture Density Model (FDM): Physics-based fragmentation model, that utilises an automated calibration process.
• Geological Element Model (GEM): Heave and blast movement modelling tool, that utilises shapes that can accurately represent rock fragments and code written to leverage modern hardware, GEM can help predict cast-blasting, ore and waste dilution to help manage your blasting outcomes. 

ViewShot^® 3D

An advanced timing design tool for timing shots. The program integrates with Dyno Nobel electronic initiation systems to send timing to detonators

DIFFERENTIAL ENERGY^2® (ΔE^2®)

An easy-to-use system that utilises data from drills or other sources that characterise rock properties to allow targeted placement of energy in the blast hole and allows mine blasting load plans to be sent directly to the loading equipment to help ensure boreholes are loaded as designed.

Hybrid Stress Blast Model (HSBM)

A dynamic numerical model that can represent the mechanics of the rock blasting process using ideal and non-ideal explosives detonation code and geo-mechanical rock model.

myMPU^™

Digital delivery and utilisation records for DYNOBULK^® Mobile Processing Unit (MPU) deliveries, with ready access to records on a daily basis. Daily, monthly and yearly data summarised in an easy to access and use website portal.