ZEISS Mineralogic 3D uses X-Ray absorption imaging and sophisticated machine learning protocols to consistently identify phases and textures on ZEISS Xradia X-Ray microscope or microCT platforms.
Individual particles are identified, analyzed and classified automatically, yielding a variety of useful results like modal mineralogy, porosity, volume, feret dimensional measurements, associations and liberation.
- Investigate the sample in its natural state, categorizing mineralogy and measuring parameters in 3D for a better understanding of its mineral relationships, composition and texture.
- With simple sample handling, the user can increase the analysis efficiency by eliminating the need to mechanically modify the samples to expose flat surfaces.
- Non-destructive imaging allows for the examination of valuable samples or the creation of correlative workflows.
Non-Destructive 3D X-Ray
Mineralogic 3D integrates X-Ray microscopy with sophisticated machine learning to offer a true measurement of the sample without obscured phases of interest.
Image Credit: Carl Zeiss Microscopy GmbH
Machine Learning Segmentation
Helps pinpoint each particle and examines it individually eliminating the need for additives or manual separation.
Image Credit: Carl Zeiss Microscopy GmbH
Insightful Data
Mineralogic 3D standard outputs include bulk mineralogy, liberations, morphological measurements and associations.
Image Credit: Carl Zeiss Microscopy GmbH
Mineralogic 3D
High Resolution Automated Mineralogy in 3D
3D mineralogy is a game-changing technological advancement that drastically reduces the time it takes to get actionable data.