ArticleName |
Methods for rapid identifi cation of metals, alloys and impurity
composition of industrial water in production conditions |
ArticleAuthorData |
National University of Science and Technology “MISiS” (Moscow, Russia) Tula State University (Tula, Russia):
O. I. Boriskin, Dr. Eng., Prof., Director of Polytechnic Institute
National University of Science and Technology “MISiS” (Moscow, Russia)
G. A. Nuzhdin, Cand. Eng., Associate Prof., e-mail: nuzhdin.65@mail.ru I. V. Muravyeva, Cand. Eng., Associate Prof. |
References |
1. Boriskin O. I., Larin S. N., Yamnikov A. S., Nuzhdin G. A., Blagoveshchenskiy D. I. Thin-walled steel billets production quality management. Journal of Chemical Technology and Metallurgy. 2019. Vol. 54, Iss. 6. pp. 1305–1311. 2. Boriskin O. I., Nuzhdin G. А., Muravyeva I. V. Identification of ferrous metals and alloys using the Mobile X-50 X-ray express analyzer. Chernye Metally. 2020. No. 3. pp. 37–41. 3. Asakura H., Ikegami K., Murata M., Wakita H. Determination of components in refractories. X-ray Spectrom. 2000. Vol. 29. pp. 418–425. 4. Ichikawa S., Onuma H., Nakamura T. Development of undersized (12.5 mm diameter) lowdilution glass beads for X-ray fluorescence determination of 34 components in 200 mg of igneous rock for applications with geochemical and archeological silicic samples. X-ray Spectrom. 2016. Vol. 45. No. 1. p. 34. 5. Rubin G. S., Chukin M. V., Gun G. S., Polyakova M. A. Analysis of the properties and functions of metal components. Steel in Translation. 2016. Vol. 46. No. 10. pp. 701–704. 6. Li W., Yin Z., Cheng X., Hang W., Li J., Huang B. Pulsed micro discharge with inductively coupled plasma mass spectrometry for elemental analysis on solid metal samples. Analytical Chemistry. 2015. Vol. 87. No. 9. pp. 4871–4878. 7. Pasynkov A. A., Larin S. N., Nuzhdin G. A. Evaluation of the possibility of manufacturing the cylindrical case-shaped products of hard-to-deform non-ferrous alloys by reverse extrusion. Non-ferrous Metals. 2020. No. 1. pp. 49–51. 8. Liu R., Liu N., Liu X., Yu H., Li B., Song Y. Spectroscopic and microscopic characteristics of natural aquatic nanoscale particles from riverine waters. Journal of Geochemical Exploration. 2016. Vol. 170. pp. 10–20. 9. Rathod T. D., Tiwari M., Maity S., Sahu S. K., Pandit G. G. Multi-element detection in sea water using preconcentration procedure and EDXRF technique. Applied Radiation and Isotopes. 2018. Vol. 135. pp. 57–60. 10. ISO 3696:1987. Water for analytical laboratory use. Specifications. Published: 30.12.2005. 11. Karandashev V. K., Khvostikov V. A., Leikin A. Y., Kutseva N. K., Pirogova S. V.Water analysis by inductively coupled plasma mass spectrometry. Inorganic Materials. 2016. Vol. 52. No. 14. pp. 1391–1404. 12. Talybov М. А., Safarov D. Т., Cherunova I. V., Sirota Е. N., Kolesnik S. А. Experimental studies for development of the information base of mineral waters. Inzhenerny vestnik Dona. 2014. Vol. 30. No. 3 . p. 72. 13. ISO 11885:2007. Water. Determination of elements by inductively coupled plasma atomic emission spectrometry. Published: 31.07.2007. 14. Golubeva А. V., Khripunov B. I., Bobyr N. P., Kolobylina N. N., Мednikov А. А. et. al. Selective spraying of ferrite-martensitic steels. Interaction of Plasma with Surface: Materials of the XXIII Conference. Moscow: NIYaU MIFI, 2020. pp. 90–91. 15. Tormysheva Е. А., Melikhova Е. V., Ermolaeva Т. N. Analysis of refractory materials for metallurgical purposes by the AES-ICP method. Zavodskaya laboratoriya. Diagnostika materialov. 2010. Vol. 76. No. 5. pp. 6–9. 16. Mayorova А. V., Belozerova А. А., Okuneva Т. G., Shunyaev К. Yu. The procedure for deposition of iron, chromium, molybdenum, tungsten in determination of arsenic and antimony in alloy steel. Zhurnal analiticheskoy khimii. 2020. Vol. 75. No. 5. pp. 413–421. 17. Janoušek V., Jiang Y., Buriánek D., Schulmann K., Hanžl P., Soejono I. et al. Cambrian Ordovician magmatism of the Ikh-Mongol Arc System exemplified by the Khantaishir Magmatic Complex (Lake Zone, south-central Mongolia). Gondvana Res. 2018. Vol. 54. pp. 122–149. 18. Menendez A., James R. H., Lichtschlag A., Connelly D., Peel K. Controls on the chemical composition of ferromanganese nodules in the Clarion Clipperton Fracture Zone, eastern equatorial Pacific. Marine Geology. 2019. Vol. 409. pp. 1–14. 19. Tan X., Wang Z. A facile acidic digestion method for cosmetic lead and cadmium determination by an inductively coupled plasma atomic emission spectrometer. Journal of Applied Spectroscopy. 2018. Vol. 85. No. 4. pp. 659–664. 20. Industrial and wholesale goods [electronic resource] Available at: https://allpribors.ru/opisanie/67011-17-prodigy-mod-prodigy-plus-prodigy-plus-gb-76584/ 21. Mayorova А. V., Belozerova А. А., Okuneva Т. G., Shunyaev К. Yu. Optimization of operating parameters of an inductively coupled plasma atomic emission spectrometer in determination of the arsenic and antimony content. Zhurnal analiticheskoy khimii. 2020. Vol. 75. No. 3. pp. 230–238. 22. ISO 8586-2015. Sensory analysis. General guidelines for the selection, training and monitoring of selected assessors and expert sensor assessors. Published: 01.12.2016. 23. SanPiN 2.1.4.1116-02. Drinking water. Hygienic requirements for quality of water packaged in containers. Quality control. Introduced: 01.07.2002. Мoscow: Ministry of Health of the Russian Federation. 24. GOST 492–2006. Nickel, Nickel and copper-nickel alloys treated by pressure. Grades. Introduced: 01.01.2007. Мoscow: Standartinform, 2011. 25. Seo J. H., Sharma M., Osterberg E. C., Jackson B. P. Determination of osmium concentration and isotope composition at ultra-low level in polar ice and snow. Analytical Chemistry. 2018. Vol. 90. No. 9. pp. 5781–5787. 26. Nakanishi N., Yokoyama T., Ishikawa A. Refinement of the micro-distillation technique for isotopic analysis of geological samples with PG-level osmium contents. Geostandards and Geoanalytical Research. 2019. Vol. 43. No. 2. pp. 231–243. |