Tag Archives: Capricorn

Byrnecut and Sandvik collaborate on new MAKO ground engaging tool

Sandvik, with the help of Australia-based mining contractor, Byrnecut, has developed a new and improved Ground Engaging Tool (GET) that, the OEM says, reduces downtime and cost-per-tonne mined.

Over a four-year period, Byrnecut has been instrumental in the development of this new system, MAKO™.

In underground mining, wear and tear is unavoidable, and nowhere is it sharper than for the buckets and the shrouds fitted to loaders.

In the most abrasive conditions, the shrouds can wear out in just a few hundred hours of work. Replacing them – especially when they are welded on – can take multiple shifts: valuable hours where the machine is out of action and productivity dented.

To speed up this process, in 2001, Sandvik introduced its Shark™ range of Blue Pointer™ ground engaging tools (GET) – becoming the first retensionable shroud system for the underground market. Blue Pointer can be summarised as shrouds using mechanical fixings that are significantly faster to replace, Sandvik says.

Even though Sandvik says the system was the market leader in underground mining, it still looked to improve upon the Blue Pointer.

With that in mind, in 2018, Sandvik set about developing a replacement, MAKO, collaborating with internationally renowned specialist mining contractor, Byrnecut.

MAKO continues the shark theme – with a Mako being a shortfin predator – and brings with it several advantages: an innovative patented locking mechanism, hammerless removal system, cast corners improvement (patented) and additional wear indicator, to mention a few.

By far the biggest improvement in terms of reducing downtime and cost-per-tonne mined can be found in the MAKO corner shrouds. Normally, corners – which have a much harder life – tend to wear out and need changing at the mid-life point, compared with the rest of the shrouds. In extreme conditions an additional two ‘half corners’ can be needed for every set of normal shrouds. But thanks to improved material and design, with MAKO there is no need for part-life replacement corners, according to Sandvik.

These improvements have been put to the test in the field, with Byrnecut instrumental in putting prototypes through their paces. The contractor trialled the concept at one of its most abrasive sites – the Capricorn copper mine near Mount Isa in Queensland, Australia.

“Sandvik came along with a team of engineers and said: ‘Right, are you willing to help us develop MAKO?”, Gary Boswell, Byrnecut’s Chief Maintenance Supervisor at the mine, said. “So, we got on board and had a good working relationship with Sandvik. Right from the start we were looking for the same outcome – to lower total-cost-of-ownership and achieve a 1:1 [corner:shroud] ratio, so that we only changed corners when we changed all the other shrouds.”

The Capricorn mine has five Sandvik loaders (LH621s) fitted with 10.7 cu.m buckets. Boswell expects to get 7,500 hours out of a bucket and, because of the aggressive nature of the rock, replaces the GET every 500-550 hours, on average. That is roughly 14 sets of MAKO per bucket life. So, making them last longer and easier to change in one go can make a significant difference to downtime and cost over that lifetime.

MAKO has not achieved its durability performance by simply adding more metal; it’s put metal where it matters. The overall MAKO system also has a very favourable weight/performance ratio, according to Sandvik.

The first MAKO GET was fitted at Byrnecut’s Capricorn site in January 2019. Despite the remote location, the buckets were monitored by Sandvik experts on a weekly basis. It soon became clear that the new range was especially durable – lasting, on average, 12% longer than the best of the rest, as well as avoiding the need for half-life corner shrouds, according to the OEM.

The first MAKO GET was fitted at Byrnecut’s Capricorn site in January 2019

“The first prototype we thought was okay, but there is still room for improvement,” Michael McCormick, the Shark Loadmaster who was hands-on with the development of MAKO, said. “The feedback we got from Gary [Boswell] and the team at Capricorn really helped us understand the issues they were having. When something cropped up, we could quickly develop a short-term ‘hotfix’, before developing a longer-term solution. For instance, we found an opportunity to improve the locking system and had to adapt the pin assembly to ensure the push-off feature was truly hammerless.

“As is natural, we had some performance issues with earlier prototypes, and it took us a couple of goes to get it right. But the ability to work in real time with Gary’s team was the key to enabling us to respond rapidly with quick fixes and validating their effectiveness.”

Boswell concluded: “Safety is paramount, and we did not want our guys hammering or using oxyacetylene to get the shrouds off. But Sandvik fixed that with the push-off feature that can handle worn-out GETs; even those with lifting lugs eroded through use. The issue of transporting heavy shrouds has also been resolved by a new lifting device, which is very effective.”

Sandvik added: “When, like Byrnecut at the Capricorn mine, you are using several hundred [GET] sets each year, the MAKO’s collective benefits add up to significant productivity, cost, time and safety enhancements. The cleve design of MAKO, perfected in the field, helps keep buckets meet their availability and productivity targets.”

CSIRO senses a new way forward for mineral exploration

A project focused on the Capricorn region of Western Australia has indicated mining companies could more accurately pinpoint reserves of valuable minerals using a new water-tasting approach developed by the national science agency, CSIRO.

In research supported by the Minerals Research Institute of Western Australia (MRIWA), broad “haloes” of altered water chemistry around known deposits of gold, uranium, and other minerals were discovered where interaction with the ore systems had left distinctive traces in the water.

CSIRO Researcher, Dr Nathan Reid, led a team of scientists analysing samples of groundwater from the Capricorn region, where layers of sediment and weathering are believed to hide potential ore deposits from view.

Dr Reid explained: “Groundwater penetrates through covering sediments and interacts directly with the bedrock, dissolving trace amounts of the minerals present into solution. By sampling those waters, our instruments can essentially ‘taste’ the geology they have come into contact with.”

Where the underlying rocks contain a valuable ore deposit, the chemical flavour of that mineralisation extends much further than the concentrated mineralisation itself, according to Dr Reid, comparing this with a teaspoon of salt making a whole glass of water taste salty.

These haloes of altered water chemistry could help geologists identify areas where other ore deposits might still lie hidden below the surface, helping to focus mineral exploration in the right areas, according to CSIRO.

Chemical anomalies identified in groundwater from sediment-covered areas of the study region have already stimulated further exploration investment from companies seeking to identify undiscovered mineral deposits, according to CSIRO. Industry sponsors of the project include Marindi Metals, Thundelarra Resources, Sandfire Resources, Northern Star Resources, MMG, Gascoyne Resources, Auris Metals, RNI, Erongo Energy and Independence Group.

MRIWA CEO, Nicole Roocke, said the innovative work in this project by scientists across CSIRO, the Centre for Exploration Targeting and Curtin University will play an important role in encouraging mining industry investment in under-explored areas of Western Australia.

“This work demonstrates the exciting mineral exploration potential remaining in the Capricorn, and we anticipate this innovative approach to mineral exploration will stimulate renewed interest in many similar areas of Western Australia where we know richly endowed geology lies buried below younger rocks,” she said.

“By supporting this fundamental research, the Western Australian Government is helping to provide the mineral exploration industry with the tools it needs to invest in identifying the next generation of ore deposits in this state.”

The technical report summarising the findings of this research can be found here.