Technology Adoption
At this year’s AusIMM Mineral Resource Estimation Conference (MREC2025) in Perth, one presentation stood out not just for its rigour, but for its challenge to long-standing assumptions in resource modelling.
At the 2025 AusIMM Underground Operators Conference in Adelaide, Dyno Nobel Senior Technical Consultant Ed Wargem delivered a message that cut through the noise of technical jargon and digital disruption: sometimes, the biggest improvements in underground development blasting come not from cutting-edge technology, but from going back to basics.
As global demand for high-purity copper climbs in step with electrification and renewable energy targets, attention is turning to the tankhouses that produce this critical metal.
In the ever-evolving field of mineral exploration, the challenge of interpreting surface geochemical data in complex terrains has long limited early-stage targeting success.
In a bold shift from business-as-usual block modelling, a team of geologists has turned their attention to the part of the orebody most often ignored — waste — and what they’ve uncovered could reshape how mining operations plan for ESG risk.
In an industry where incremental improvements are the norm, a new variable-energy blasting system is delivering a true step change in underground blasting.
When MMG’s Rosebery operation in Tasmania rolled out a fatigue detection system for its underground truck fleet, it wasn’t just about plugging in hardware — it was about rewiring the mindset of a seasoned workforce.
When Laércio Bertossi took to the stage at AusIMM’s 2025 Mineral Resource Estimation Conference in Perth, he didn’t unveil a new machine learning model or simulation breakthrough.
In the remote Altai Mountains of eastern Kazakhstan, a centuries-old underground mine is undergoing a transformation.
Underground haulage is often regarded as a necessary bottleneck—an unavoidable compromise between ore delivery and operational congestion.
