Vibration presents a major challenge for many quarries and mines, particularly those with neighboring structures and communities. Dyno Nobel’s Nobel Fire digital platform offers two tools that are designed to revolutionize the way operations approach vibration prediction and mitigation: Advanced Vibration Prediction and Vibration Timing Optimization.
Advanced Vibration Prediction provides the likelihood of potential outcomes so operations can confidently predict vibration levels. Because it takes the natural variability of blasting into account rather than assuming every blasthole will generate an identical wave, this tool provides the most accurate vibration prediction in the industry.
Vibration Timing Optimization quickly identifies blast timing pairs that help reduce vibration at structures. It can run thousands of scenarios in seconds to find the optimal timing for vibration mitigation, providing a fast, simple, and accurate way to design blasts that minimize vibration challenges.
As part of Nobel Fire, Advanced Vibration Prediction and Vibration Timing Optimization work together seamlessly to allow operations to control vibration, improve community relations, and ensure safe blasting near structures.
