Operations and Services

Slope stability and wall control aim to preserve the structural integrity of excavation slopes and ensure surface stability after blasting. By minimizing the risk of slope failures, this process contributes positively to the overall mine life and supports sustainable mining within the geotechnical engineering framework.

Vibration optimization in mining is a statistical engineering approach that focuses on controlling and minimizing vibration through data-driven analysis. This helps ensure structural stability while reducing environmental and safety-related risks.

Fragmentation analysis is the process of assessing the size distribution of blasted rock fragments. This enables the optimization of blasting performance, improves loading and hauling efficiency and enhances overall production performance.

Blast design and modelling is an engineering approach that incorporates advanced drilling and blasting design, pre-blast simulation and outcome reporting to achieve optimum fragmentation, minimize ground vibrations and improve blasting efficiency in mining operations.

This process focuses on applying precision blasting design and execution techniques based on engineering principles to ensure wall and opening stability, minimize overbreak, maintain advance rates and improve excavation quality in both tunnelling and underground mining operations.

Ore loss and dilution optimization aims to minimize the loss of valuable ore and the mixing of waste material by using proper blast design, selective mining and advanced monitoring techniques.