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Glass and Ceramics

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01-09-2012 | Raw Materials

Magnetic separation of raw materials for glass and ceramic production: problems of ferruginous impurity control (review)

Authors: A. V. Sandulyak, A. A. Sandulyak, D. V. Ershov, D. A. Sandulyak, V. A. Ershova

Published in: Glass and Ceramics | Issue 5-6/2012

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Abstract

A large mass of data on magnetic separation of raw materials for the production of glass and ceramic is generalized using a key indicator — the separation efficiency (relative decrease of the ferruginous impurity content); the unsystematic variation of the data is determined. It is established that the results of conventional control (in terms of a “single” form of impurity Fe₂O₃), though providing a basis for judging the presence of a formal concentration dependence, nonetheless do not permit logical systematization of the accumulated mass of data by evaluating media with respect to their “proneness” to separation and evaluation of separators according to their address preference. The method of magnetic control is recommended for purposeful control of impurities which are active in a separator.

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GOST 22551–77. Quartz Sand, Ground Sandstone, Quartzite and Vein Quartz for the Glass Industry: Technical Conditions (update March 22, 2010) [in Russian], Moscow (1977).

GOST 15045–78. Quartz-Feldspar Materials for Building Ceramic: Technical Conditions (update March 22, 2010) [in Russian], Moscow (1978).

P. P. Tkachev and I. D. Khait, “Raw materials, optimization of commercial batch and glass (SiO₂–R₂O₃–RO–R₂O) compositions to decrease production costs and improve product quality. Some problems of quality control,” in: Reports at the 9th International Seminar on the Application of Magnetic Separators in Industry [in Russian], Rovno (2005), pp. 11 – 17.

R. T. Artyushov, “Application and construction of a roller separator based on Nd–Fe–B magnets for separating quartz sand, feldspar and other loose materials,” Ibid., pp. 28 – 32.

N. N. Konev, I. P. Salo, N. F. Mel’nik, and V. N. Gordiichuk, “Magnetic additional enrichment of quartz sand in glass plants,” Steklo Keram., No. 5, 33 – 34 (2003).

A. A. Lozin, “On the problem of enrichment of quartz sands,” in: Reports at the 9th International Seminar on the Application of Magnetic Separators in Industry [in Russian], Rovno (2005), pp.3–4.

A. A. Karnaukhov, “Problems of and prospects for dry enrichment of quartz sands,” Ibid.,pp.5–9.

A. D. Savko and V. P. Mikhin, “Glass sands in Aptian deposits in the Don-Veduga interfluve,” Vestn. Voronezh. Univer., Geologiya, No. 1, 152 – 166 (2005).

N. N. Konev, I. P. Salo, Yu. P. Lezhnev and V. P. El’skii, “Magnetic enrichment of quartz sand for the glass industry,” Steklo Keram., No. 2, 21 – 22 (2001); N. N. Konev, I. P. Salo, Yu. P. Lezhnev and V. P. El’skii, “Magnetic concentration of quartz sand for glass industry,” Glass Ceram., 58(1 – 2), 57 – 59 (2001).

10.

S. V. Kotunov and A. V. Vlasko, “Experience in enriching nonmetallic materials using separators based on rare-earth permanent magnets,” Steklo Keram., No. 5, 22 – 23 (2007); S. V. Kotunov and A. V. Vlasko, “Experience in using separators based on rare-earth permanent magnets to enrich nonmetalliferous materials,” Glass Ceram., 64(5 – 6), 169 – 170 (2001).

11.

E. B. Zolotykh, I. A. Mamina, and O. V. Paryushkina, “Extraction of magnetic minerals from glass sands of the Ushinskoe deposit,” Stroit. Mater., No. 5, 22 – 24 (2007).

12.

O. V. Paryushkina, O. E. Kharo, A. V. Yashchenko, et al., “Technical re-equipping of Kvartz, JSC (Tashinskii Mining-Enrichment Combine) in Ul’yanosk Oblast,” Stroit. Mater. Oborud., Tekhnol. XXI Veka, No. 12, 18 – 19 (2005).

13.

E. A. Zemlyacheva, S. V. Kotunov, and A. V. Vlasko, “Magnetic enrichment of row materials – new technologies,” Steklo Keram., No. 5, 34 – 35 (2006).

14.

N. N. Konev and I. P. Salo, “Magnetic separators with permanent magnets for enrichment of raw materials and materials for glass and ceramic production,” Steklo Keram., No.2, 30–31 (2000).

15.

E. V. Bychkov, V. D. Filatov, S. N. Knyazev, et al., “Use of magnetic separation in the production of electro-melted refractories,” Steklo Keram., No. 9, 42 – 43 (2000); E. V. Bychkov, V. D. Filatov, S. N. Knyazev, et al., “Use of magnetic separation in the production of electro-melted refractories,” Glass Ceram., 57(9 – 10), 328 – 329 (2000).

16.

N. N. Konev and I. P. Salo, “Removal of ferruginous impurities by magnetic separation,” Steklo Keram., No. 1, 28 – 29 (1999); N. N. Konev and I. P. Salo, “Removal of iron-containing impurities using the magnetic separation method,” Glass Ceram., 56(1 – 2), 32 – 33 (1999).

17.

O. A. Dolgopolov, “New-generation magnetic roller separators with permanent magnets for enrichment and purification of weakly magnetic materials,” Steklo Keram., No. 5, 33 (2005); O. A. Dolgopolov, “A new generation of magnetic roll separators based in rare-earth magnets for concentration and purification of weakly magnetic materials,” Glass Ceram., 62(5 – 6), 155 – 156 (2005).

18.

E. A. Zemlyacheva and S. V. Kotunov, “New-generation magnetic separators for the glass and ceramics industry,” Steklo Keram., No. 5, 35 – 36 (2003).

19.

N. N. Konev, “Magnetic enrichment of quartz sands. Analysis of separator operation,” Steklo Keram., No. 5, 12 – 17 (2010); N. N. Konev, “Magnetic enrichment of quartz sands. Analysis of separator operation,” Glass Ceram., 67(5 – 6), 12 – 17 (2010).

20.

GOST 22552.2–93. Quartz Sand, Ground Sandstone, Quartzite and Vein Quartz for the Glass Industry. Methods of Iron Oxide Determination (update March 22, 2010) [in Russian], Moscow (1993).

21.

GOST 26318.3–84. Nonmetallic Materials. Methods for Determination of the Iron (III) Oxide Mass Fraction (update March 22, 2010) [in Russian], Moscow (1984).

22.

G. N. Maslennikova, R. A. Khalilyllova, and Yu. T. Platov, “Identification of iron compounds in clayey materials,” Steklo Keram., No. 2, 12 – 15 (1999); G. N. Maslennikova, R. A. Khalilyllova, and Yu. T. Platov, “Identification of iron compounds in clay-containing materials,” Glass Ceram., 56(1– 2), 48 –51 (1999).

23.

B. K. Kara-sal, “Effect of iron compounds on sintering of clayey pastes at low pressure of the sintering medium,” Steklo Keram., No. 2, 13 – 16 (2005); B. K. Kara-sal, “The effect of ferrous compounds on sintering of clay mixtures under decreased pressure of firing medium,” Glass Ceram., 62(1 – 2), 45 – 48 (2005).

24.

Z. A. Avakyan, Yu. T. Platov, R. A. Khaliullova, et al., Method of Whitening Clayey Ceramic Raw Material, Patent RF No. 2083527 [in Russian], Moscow (1997).

25.

V. V. Karmazin and V. I. Karmazin, Magnetic and Electric Methods of Enrichment [in Russian], Nedra, Moscow (1988).

26.

GOST 23789–79. Binding Gypsums. Methods of Testing. Determination of Metal Impurities Content in Binder (update March 22, 2010) [in Russian], Moscow (1979).

27.

GOST 25216–82. Talc and Talc-Magnesite. Method of Determining Iron (update March 22, 2010) [in Russian], Moscow (1982).

28.

GOST 8253–79. Chemically Precipitated Chalk. Technical Conditions (update March 22, 2010) [in Russian], Moscow (1979).

29.

GOST 23672–79. Dolomite for the Glass Industry. Technical Conditions (update March 22, 2010) [in Russian], Moscow (1979).

30.

A. A. Sandulyak, M. N. Polismakova, V. A. Ershova, et al., “Controlling ferro impurities in foods: drawbacks and main concepts for improving the normative-metrological base,” Khranenie Pererabotka Sel’khozsyr’ya, No. 1, 60 – 66 (2011).

31.

A. A. Sandulyak, M. N. Polismakova, D. V. Ershov, et al., “Functional extrapolation of the mass-production characteris tics of magnetophoresis as a base for precision methods of controlling ferro particles,” Izmeritel’naya Tekhnkika, No. 8, 57 – 60 (2010).

32.

A. V. Sandulyak, M. N. Pugacheva, A. A. Sanduloyak, et al., Method of Determining the Concentration of Magnetically Permeable Impurities in a Flowing Medium, RF Patent No. 2409425 [in Russian], Moscow (2009).

33.

A. A. Sandulyak, M. N. Polismakova, D. I. Svistunov, et al., Apparatus for Determining the Content of Magnetically Permeable Impurities in Flowing Medium (Variants), RF Patent No. 93305 [in Russian], Moscow (2009).

Title: Magnetic separation of raw materials for glass and ceramic production: problems of ferruginous impurity control (review)
Authors: A. V. Sandulyak
A. A. Sandulyak
D. V. Ershov
D. A. Sandulyak
V. A. Ershova
Publication date: 01-09-2012
Publisher: Springer US
Published in: Glass and Ceramics / Issue 5-6/2012
Print ISSN: 0361-7610
Electronic ISSN: 1573-8515
DOI: https://doi.org/10.1007/s10717-012-9448-7

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