The TerraSpec® 4 Standard-Res mining analyzer allows increasing efficiency and optimizing metal yield with high-throughput mineralogical analysis and also even greater data quality. Top mine operations throughout the world already trust ASD’s TerraSpec® line of mining instruments for their critical mineral analysis measurements.
The portable and tough TerraSpec® 4 Standard-Res mineral analyzer, with 10 nm resolution, has been designed to improve the productivity of mine site ore analysis and is capable of providing high-throughput mineralogical analysis in order to help optimize ore processing, sorting and ore recovery.
This near-infrared, flexible spectrometer is capable of accurately measuring an extensive variety of geologic samples offering enhanced visibility into the ore sorting, processing and extraction processes. The rugged TerraSpec mineral and ore analyzer can transition effortlessly from the production lab to the field, where it can accurately and quickly analyze ore feeds and tailings.
- Industry leading performance in the SWIR 1/SWIR 2 regions for unparalleled alteration mineral analysis
- Enhanced optics deliver more precise spectral data in a fraction of the time
- High-throughput sample analysis (capable of analyzing more than 1,000 samples a day) means accurate measurements even in high-volume production environments
- Upgraded feature recognition helps you analyze darker material and improve management of ore variability
Designed for boosting yield and reducing mineral processing costs in mining production environments, the TerraSpec® 4 Standard-Res mining analyzer is capable of supplying critical mineralogical information more rapidly than other technologies. For instance, the TerraSpec spectrometer’s impressive spectral response generates high-quality spectra used for identifying clay minerals such as dickite, smectite, kaolinite or montmorillinite in real time with no sample prep required.
The TerraSpec 4 Standard-Res mining analyzer is suitable for a variety of mining production measurement applications, including ore sorting, agglomeration optimization, heap leach optimization, and floatation ore feed control.