Rigaku Publishes Method for EDXRF Analysis OF Lead and Zinc Ore

Austin, TX – July 24, 2015. Applied Rigaku Technologies, Inc. announced today the publication of a new method for the analysis of lead-zinc ore using the empirical calibration technique. The method is detailed in EDXRF application note #1495 and demonstrates the use of the Rigaku NEX CG benchtop EDXRF analyzer in the trace elemental analysis of ores. Information regarding sample preparation, calibration and repeatability is presented in the application note.

From screening at the mine site, throughout the processing areas to final evaluation, elemental analysis is a critical part of the examination of ores, helping ensure proper extraction and process control. Trace elemental analysis, especially of precious metals, also helps optimize the value of the processing. In lead-zinc ores, the most profitable elements are lead, zinc and, in some ores, silver. Along the entire processing line, a fast and simple technique is required to monitor these and other elements.

For the application described in the report, 12 assayed ore samples were used as standards for empirical calibration and a single calibration method was created. Two standards were selected from the calibration and were analyzed against the calibration curves to demonstrate recovery and repeatability.

Spectral analyses of each of the samples show clear isolation of the respective peaks. The results indicate that, given homogeneous samples and proper calibration, the Rigaku NEX CG analyzer is an ideal EDXRF tool for screening and characterization of lead/zinc ore at the mine site or processing facilities for optimum product QA/QC.

A copy of this report may be requested here.

For further information, contact:

Scott Fess
Product Manager
Applied Rigaku Technologies, Inc.
tel: +1. 512-225-1796
info@RigakuEDXRF.com