
Investigation of the enrichment process of waste titanium production
Author(s) -
Sergey V. Lanowiecki,
Olga G. Melkomkova,
Semen G. Khudyakov
Publication year - 1970
Publication title -
izvestiâ vysših učebnyh zavedenij. himiâ i himičeskaâ tehnologiâ/izvestiâ vysših učebnyh zavedenij. seriâ himiâ i himičeskaâ tehnologiâ
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.221
H-Index - 5
eISSN - 2500-3070
pISSN - 0579-2991
DOI - 10.6060/ivkkt201962fp.5857
Subject(s) - magnetic separation , ilmenite , titanium dioxide , materials science , fraction (chemistry) , titanium , scanning electron microscope , impurity , silicon dioxide , titanium oxide , optical microscope , metallurgy , analytical chemistry (journal) , chemical engineering , mineralogy , composite material , chemistry , chromatography , organic chemistry , engineering
The paper presents a study of the process of enriching the waste of titanium production (sand and slag mixture) by mechanical and magnetic separation methods in order to reduce the losses of the useful component in the technology of processing ilmenite concentrate. The composition of the initial fraction of the test mixture and fractions obtained in the process of mechanical and magnetic separation was evaluated using X-ray and X-ray spectral analyzes. The particle size of the analyzed mixture was evaluated by means of a high-resolution scanning electron microscope «S-3400N» and an optical microscope «MBS-1» from a digital camera Webbers MYscope 560MCCD. As a result of the separation of the analyzed mixture by mechanical classification, it was shown that the fraction 0.16 ‑ 0.4 mm contains a considerable proportion of sand (up to 94%) and can be completely removed from the technology without further processing. The remaining fractions in addition to titanium dioxide, iron and its oxides contain a sufficiently large fraction of silicon dioxide, which can not be separated by the screen classification method. Studies on the separation of the analyzed mixture by the magnetic separation method have shown that it is possible to separate out phases of sand and titanium dioxide without iron impurities into the nonmagnetic fraction. At the same time, virtually all iron with its trivalent oxide remains in the magnetic part, as well as a sufficiently large fraction of silica and titanium particles, fused in larger pieces of the magnetic fraction. It is shown that in the process of magnetic separation, up to 100% of Fe + Fe2O3, 20% of SiO2 and 73% of TiO2 are transferred to the magnetic fraction. At the same time, with a non-magnetic fraction, on average, up to 80% of SiO2 and 27% of TiO2 are consumed.