The ever-growing battery market has resulted in an increased demand for battery materials, providing the mineral processing industry a unique opportunity to increase production. Here are some key insights to consider before attempting to enter the battery market.
There are many ways you can use CSIRO for your R&D. And it's not as hard as you may think. Read about the ways you can engage with us to invigorate and innovate your business.
Are you missing the opportunity to improve fluid flow in minerals processing? Many organisations suffer low throughput on their fluid flow minerals processing. Find out how you can optimise.
Changes in the iron ore industry have been a huge point of discussion over the last year. Read our wrap-up of the series and how we have identified challenges and solutions in iron ore processing.
If you’re a low grade ore producer, and beneficiation isn’t a viable option, what do you do? Learn how understanding the properties of your ore can help you maximise performance.
As high-quality ores are depleted, more metal smelters are having to smelt less desirable materials. Find out how you can optimise your smelting operations when using complex ores with CSIRO’s Heat Transfer Modelling.
Smelting operations are facing some major changes in order to deal with the rising complexity of feedstock materials. Understanding minor element deportment of your feedstock can reduce risk and deliver lucrative opportunities.
Slurry mixing tanks are vital to any particulate processing, but there are high costs surrounding planned and unplanned maintenance. Read how we can help you optimise the performance of your slurry mixing tanks and potentially save you millions with Swirl Flow.
Energy wastage can be an expensive cost in electrolysis and electrowinning processes. We can help you improve the maintenance process of electrical connections in your smelter to achieve optimum plant energy efficiency.
Understand the 7 iron ore analytical tools that will help you drive process efficiencies, reduce costs and optimise mine planning.