ZEISS provides the broadest portfolio of imaging solutions – light, X-ray, electron and ion microscopy with advanced data analytics – to visualize, characterize and quantify the properties and processes of your natural resources. Our solutions link length scales via correlative workflows, delivering knowledge from data to provide the most informed decision-making.
Using X-ray Microscopy to Characterize Gold Mineralization
Visualizing the Formation of Uranium and Gold Ore Related to Fossil Hydrocarbons in the Witwatersrand Basin
Using Automated Mineralogy to Construct Magnetic and Gravity Profiles of Metalliferous Ore
A Review of New Automated Mineralogy Functionality
3D Crystallographic Tomography: A Revolutionary New Lab Technique to Image Grain Microstructure
Taking Rocks to the Cloud: Digitizing Thin Sections. A giant leap to a new world of digital petrography
AI-driven Reconstruction Technologies Enable Next Generation XRM Imaging: Increase Throughput and Enhance Image Quality
Mineralogic 3D: High Resolution Automated Mineralogy in 3D
The Rigaku ZSX Primus IVi offers high-speed chemical analysis of geological materials, liquids, alloys, chemicals and plated metals. As a sequential WDXRF spectrometer, it offers superior resolution and sensitivity compared to EDXRF spectrometers.
This product profile outlines the Ramsey Series 30 Belt Scale System.
ZEISS Xradia 510 Versa x-ray microscope advances industry and science to address emerging research challenges.
AZoMining speaks to Francois Nell at Sandvik about the importance of mining sustainability and why equipment rebuilding and upgrades play their part in reducing fuel consumption.
AZoMining speaks to Philip Gross, CEO of Snow Lake Lithium, about the development of the world's first electric lithium mine. This is a particularly important development within mining and highlights the significance of accelerating green mining across the world.
Prof. James Tour
AZoMining speaks with James Tour from Rice University about his team's exciting method that has the very real potential to recover valuable REE from three types of waste; electronic waste, coal fly ash and bauxite residue.