Chemical analysis of rutile - a pyrocatechol violet spectrophotometric procedure for the direct microdetermination of zirconium
The ZrO2 content of rutile is determined spectrophotometrically by a direct pyrocatechol violet procedure. The sample is decomposed by potassium pyrosulfate fusion in a transparent quartz crucible, and a sulfuric acid solution of the melt is used for the determination at a pH of 5.1. Of the elements commonly present in rutile, only titanium and niobium occur in concentrations large enough to interfere. Titanium and niobium interference is overcome by adding the titanium and niobium contents of the sample to the standard zirconium solutions used for the standard zirconium curve. The absorbance is measured at 570 nm. Beer's law is obeyed within the range of 0.05-1.50 ppm ZrO2. In the presence of 50 ppm TiO2, the range is 0.15-1.50 ppm ZrO2 . The tolerances of 47 elements were determined. The sensitivity is 0.0058 ug Zr/cm2 . The variables in the method were studied, and typical results are given for commercial rutile concentrates.
Citation Information
Publication Year | 1973 |
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Title | Chemical analysis of rutile - a pyrocatechol violet spectrophotometric procedure for the direct microdetermination of zirconium |
Authors | Robert Meyrowitz |
Publication Type | Article |
Publication Subtype | Journal Article |
Series Title | Journal of Research of the U.S. Geological Survey |
Index ID | 70161891 |
Record Source | USGS Publications Warehouse |