The study of physical­chemical patterns of resource­saving recycling of tungsten­containing ore raw materials by solid­phase reduction

Stanislav Hryhoriev; Artem Petryshchev; Olga Sergienko; Dmitry Milko; Alexander Stepanenko; Gennadii Kozhemiakin; Yevheniia Manidina; Nataliia Berenda; Vadim Ryzhkov; Oksana Shcherbyna

doi:10.15587/1729-4061.2018.122743

Authors

Stanislav Hryhoriev Zaporizhzhia national University Zhukovskoho str., 66, Zaporizhzhia, Ukraine, 69600, Ukraine https://orcid.org/0000-0002-1170-6856
Artem Petryshchev Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063, Ukraine https://orcid.org/0000-0003-2631-1723
Olga Sergienko Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063, Ukraine https://orcid.org/0000-0001-5575-9856
Dmitry Milko Tavria State Agrotechnological University B. Khmelnytsky ave., 18, Melitopol, Ukraine, 72310, Ukraine https://orcid.org/0000-0002-0991-1930
Alexander Stepanenko Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063, Ukraine https://orcid.org/0000-0002-0267-7440
Gennadii Kozhemiakin Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606, Ukraine https://orcid.org/0000-0002-2960-1331
Yevheniia Manidina Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606, Ukraine https://orcid.org/0000-0003-4090-9991
Nataliia Berenda Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606, Ukraine https://orcid.org/0000-0002-7518-5682
Vadim Ryzhkov Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606, Ukraine https://orcid.org/0000-0002-0768-544X
Oksana Shcherbyna Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063, Ukraine https://orcid.org/0000-0003-3877-7168

DOI:

https://doi.org/10.15587/1729-4061.2018.122743

Keywords:

tungsten concentrate, carbothermic reduction, metallization, sublimation, phase analysis, microstructure, resource saving

Abstract

It was determined that the oxidic tungsten concentrate is represented basically by CaWO₄. Other phases have a fragmentary manifestation with a low intensity of the corresponding diffraction peaks. Microstructure is heterogeneous, disordered. Particles with presence of the accompanying ore impurities (molybdenum, calcium, silicon, iron, aluminum, fluorine and carbon) were found. The metallized tungsten concentrate after heat treatment at 1,250 K had a reduction degree of 21 % with a prevalence of CaWO₄in the phase composition. An increase in temperature to 1,350 K and 1,450 K provided a reduction degree of 69 % and 87 %, respectively. Under these conditions, a significant predominance of WC and W₂C carbides was found in the phase composition. The presence of CaWO₄ was of a residual nature with a relatively low intensity of manifestation. The microstructure of metallized tungsten concentrate was inhomogeneous with the presence of particles of various sizes and chemical compositions. As the reduction temperature increased, manifestation of the processes of sintering of particles was observed, especially clearly after treatment at 1,350 K and 1,450 K

Author Biographies

Stanislav Hryhoriev, Zaporizhzhia national University Zhukovskoho str., 66, Zaporizhzhia, Ukraine, 69600

Doctor of Technical Sciences, Professor

Department of business administration and international management

Artem Petryshchev, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

PhD, Associate Professor

Department of Labour and Environment Protection

Olga Sergienko, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

PhD

Department of Foundry Technology and Equipment

Dmitry Milko, Tavria State Agrotechnological University B. Khmelnytsky ave., 18, Melitopol, Ukraine, 72310

Doctor of Technical Science, Associate Professor

Department of technical systems of livestock technologies

Alexander Stepanenko, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

PhD, Associate Professor

Department of Software Tools

Gennadii Kozhemiakin, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

PhD, Associate Professor, Head of Department

Department of Applied Ecology and Labor Protection

Yevheniia Manidina, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

PhD, Associate Professor

Department of Applied Ecology and Labor Protection

Nataliia Berenda, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

PhD, Associate Professor

Department of Applied Ecology and Labor Protection

Vadim Ryzhkov, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

PhD, Associate Professor

Department of Applied Ecology and Labor Protection

Oksana Shcherbyna, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

Assistant

Department of applied mathematics

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The study of physicalchemical patterns of resourcesaving recycling of tungstencontaining ore raw materials by solidphase reduction

Authors

DOI:

Keywords:

Abstract

Author Biographies

Stanislav Hryhoriev, Zaporizhzhia national University Zhukovskoho str., 66, Zaporizhzhia, Ukraine, 69600

Artem Petryshchev, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

Olga Sergienko, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

Dmitry Milko, Tavria State Agrotechnological University B. Khmelnytsky ave., 18, Melitopol, Ukraine, 72310

Alexander Stepanenko, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

Gennadii Kozhemiakin, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

Yevheniia Manidina, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

Nataliia Berenda, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

Vadim Ryzhkov, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

Oksana Shcherbyna, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

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The study of physical­chemical patterns of resource­saving recycling of tungsten­containing ore raw materials by solid­phase reduction

Authors

DOI:

Keywords:

Abstract

Author Biographies

Stanislav Hryhoriev, Zaporizhzhia national University Zhukovskoho str., 66, Zaporizhzhia, Ukraine, 69600

Artem Petryshchev, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

Olga Sergienko, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

Dmitry Milko, Tavria State Agrotechnological University B. Khmelnytsky ave., 18, Melitopol, Ukraine, 72310

Alexander Stepanenko, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

Gennadii Kozhemiakin, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

Yevheniia Manidina, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

Nataliia Berenda, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

Vadim Ryzhkov, Zaporizhzhia State Engineering Academy Soborny ave., 226, Zaporizhzhia, Ukraine, 69606

Oksana Shcherbyna, Zaporizhzhia National Technical University Zhukovskoho str., 64, Zaporizhzhia, Ukraine, 69063

References

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The study of physicalchemical patterns of resourcesaving recycling of tungstencontaining ore raw materials by solidphase reduction