It is often a requirement to have a box cut at a place other than the first strip.
It is intended to mine this centre strip first. The orientation of the centre sub pit is slightly different. The image, below, shows 3 sub-pits designed in Minex. The mining directions intended here are also different in the two areas. The first pit has strip numbers increasing south to north, whereas the smaller pit towards the south east has strip numbers increasing from east to west. The above images shows two pits designed using Minex. There is confusion as to whether or not it is possible to design these types of pits using GEOVIA Minex™, and the answer is yes. For example, a pit may have an area with strips going in one direction while the remainder of the pit has strips in another direction. Mining Engineers often need to design pits and dumps in different sizes and shapes. It’s Tip Tuesday! Today’s post comes from Ranajit Das, one of our Senior Mining Consultants. Just enter your email in the box on the right side of the page and click “subscribe.”
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To learn more, download our FREE White Paper: Looking to technologies used by other industries to drive productivity & efficiency in miningīe sure to check back next month, as we share examples of how technology used by the High Tech Industry can benefit the Mining Industry. These are just two examples of simulation and 3D technologies from which the mining industry can learn and utilize to improve performance. It is much easier to identify the sweet spot for cost-versus-performance that generates profitability. Data is easy to store and file, literally saving weeks of searching, resulting in a 20-25% time savings over the previous methodology. The creation of guided templates allows Dana to capture best practices and standard methods for simulation work on core products. The company turned to simulation templates and process management to improve collaboration and drive better decision-making.
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Read the Full Story Dana Holding Corporationĭana Holding Corporation, a US-based Tier-1 supplier of axles, driveshafts and other automotive parts and assemblies, needed to control costs and manufacture more efficiently while maintaining the quality and improving the function of its products.
By creating an integrated and automated closed loop DOE (Design of Experiments) process, they reduced the testing cycle from 70 days to just four. To perform virtual tests of their design, the Ford engineers coupled simulation with 3D design.
Ford Motor Companyįord Motor Company’s North America Engine Engineering Organization needed to develop a robust cantilevered conical joint design, while minimizing cost and time to meet functional targets. With this in mind, let’s look at how technology used by the Automotive Industry can benefit the Mining Industry’s quest for improved productivity. This productivity improvement has to come from the bottom up, by getting the most out of every truck and every shovel and by making sure our people have the right skills and approach to do their jobs better each day…If we look at our industry, the prize is significant.” In a 2013 speech, BHP Billiton CEO Andrew Mackenzie remarked that: “More balanced markets require us to get much sharper on operating and capital productivity to expand margins and returns, no matter where prices go… So for us improving productivity is crucial to maintaining this capability. In Part 1, we looked at how technology used in the Energy sector can help the Mining Industry improve both productivity and efficiency.
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This is Part 2 in a new series on Mining Innovation discussing how the Mining Industry can look to technologies that successfully advanced the performance of other industries.