MF Lee scite author profile

The Mt Charlotte ROB5 orebody remnant had defeated two earlier attempts at stoping, with Richter magnitude (M R ) 2.2 to 2.9 seismic events in 1995 and 1997 causing a halt to production.A destressing strategy, known as Tight Slot Blasting (TSB), was subsequently developed for this orebody. It was designed to manage fault-slip seismicity on several major structures intersecting the ROB5 area. The objective was to destress by creating a slot 150 m long and up to 40 m high along the entire western edge of the orebody. The concept was validated using a calibrated numerical modelling study, and the key elements involved tight firing (low blast expansion void) and rapid firing (electronic detonation).Mining commenced in August 2006. At that time, four particular R-shears (sub-vertical and striking NE-SW) were identified as requiring specific seismic management. A blasting schedule was defined using four TSB segments to advance the slot across these structures. To date, two TSBs have been conducted and 80% of the orebody has been destressed, but practical blasting issues have affected the project, and fault-slip seismicity has also been experienced.Bridging of intact rock across the slot has been a major problem, and methods of dealing with this have been developed. The main issue was long up-holes that toed into highly stressed, fractured and open ground below the previous ROB5 undercut.The largest fault-slip event, M R +2.2, was the same as the project maximum that was estimated in 2004. Ground support has generally performed well. The TSB strategy has provided the required control of event magnitude, but not event timing. This is a significant project. It has added 18 months to the life of the mine, and represents a rare attempt to achieve stope-scale destressing in the face of fault-slip seismicity.

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Basic Requirements for Survival of Mice in a Sealed Atmosphere

Lee¹,

Jp²,

Er³

1953

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MED28 (mediator complex subunit 28)

Lee¹,

Cy²

2013

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Rock stresses, its controls and associated ground behaviour at the Rosebery mine, Tasmania

Lee¹,

Vries²,

Moller³

2017

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The Rosebery mine, on the west coast of Tasmania, is currently one of Australia's deepest mines. The orebodies dip moderately (45°) and mining is currently about 1,800 m below Mount Black. As might be expected, ground conditions are challenging regarding rock stresses versus the strength of the rock mass. Over 22 years, from 1983 to 2015, in situ rock stress measurements have been made at 16 sites at varying depths from about 500 to 1,800 m below surface. This data is documented and summarised, with depth and possible geologic and structural controls, to provide an understanding of what locally controls Rosebery's rock stresses. This understanding has been used to better appreciate some aspects of the mine's challenging ground conditions.

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MF Lee

Ambulance use affects timely emergency treatment of acute ischaemic stroke

Destressing the ROB5 Remnant Using Tight Slot Blasting at Mt Charlotte Mine

Basic Requirements for Survival of Mice in a Sealed Atmosphere

MED28 (mediator complex subunit 28)

Rock stresses, its controls and associated ground behaviour at the Rosebery mine, Tasmania

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