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Glass and Ceramics

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12-07-2018 | SCIENCE FOR GLASS PRODUCTION

Technological Aspects of the Production of Optically Transparent Glass Ceramic Materials Based on Lithium-Silicate Glasses

Authors: O. V. Savvova, L. L. Bragina, D. V. Petrov, V. L. Topchii, S. A. Ryabinin

Published in: Glass and Ceramics | Issue 3-4/2018

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Abstract

The process parameters for the synthesis of optically transparent glass ceramic material based on lithium silicate glass under conditions of two-step, low-temperature, short-time heat-treatment were developed. It was determined that such a material, which is characterized by high mechanical properties, heat resistance, and light transmission 72%, is promising for the development of transparent sitals for protecting optical devices used in special-purpose technology.

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E. D. Zanotto, “A bright future for glass-ceramics,” Am. Ceram. Soc. Bull., 89(8), 19 – 27 (2010).

A. S. Chainikova, M. L. Vaganova, N. E. Shchegoleva, and Yu. E. Lebedev, “Technological aspects of producing radio-transparent glass-ceramic materials based on high temperature aluminum silicate systems (review),” Tr. VIAM, No. 11, 1 – 4 (2015); dx.doi.org/https://doi.org/10.18577/2307-6046-2015-0-11-4-4.

C. Barry Canter and M. Grant Norton, Ceramic Materials: Science and Engineering, Springer (2007).

W. Holand and G. H. Beall, Glass Ceramic Technology, John Wiley & Sons, New Jersey (2012).CrossRef

A. G. Romashin, V. E. Gaidachuk, Ya. S. Karpov, and N. Yu. Rusin, Radiotransparent Cowlings for Aircraft: Design, Structural Materials, Production Technology, Testing [in Russian], Nats. Aerokosm. Universitet ‘Khark. Aviats. Institut’, Kharkov (2003).

M. I. Budd and J. G. Darrant, Pat. GB 2284655, F 41 H 5/02, B 64C 1/14, F 41H 5/08 5/26, Glass-ceramic Armour, No. 9418539.4, appl. 14.09.1994; publ. 14.06.1995.

Siebers Friedrich, Lemke Hans-Juergen, Schaupert Kurt, and Zachau Thilo, Pat. 2010263525, USA, IPC 7 C03C10/10; C03C10/12; F41H5/02, Glass Ceramic Armor Material, No. 12/451794, appl. 04.12.2008; publ. 21.10.2010.

B. L. Rudoi, Pat. 4473653, USA, IPC 3 C03C3/22, Ballistic-Resistant Glass-Ceramic and Method of Preparation, No. 408114; appl. 16.08.1982; publ. 25.09.1984.

L. R. Pinckney, Jian-Zhi Jay Zhang, C. F. Cline, Pat. 7875565, USA, IPC 7 N 03 N 10/08, Transparent Glass-Ceramic Armor, Corning Inc. No. 11/710145, appl. 23.02.2007; publ. 25.01.2011.

10.

RonaldW. Jones, Pat. 5060553, USA, IPC 5 F41 H5/04, Armor Materials, Ceramic Developments (Midlands), Ltd. No. 474080, appl. 10.11.1987; publ. 29.10.1991.

11.

Th. Zachau, F. Siebers, U. Schiffner, K. Schaupert, Pat. 2010154622, USA, IPC B32B17/06; B32B17/08; B32B17/10; B32B18/00; B32B27/06; C03C14/00; F41 H5/02, Highly Transparent Impact-Resistant Glass Ceramic, No. 12/616982, appl. 12.11.2009; publ. 24.06.2010.

12.

Yu. Yu. Merkulov, Pat. 2176624 RF, IPC 7 C03C10/04; C03C10/16; F41H1/02, Glass Ceramic: Method of Production and Armour Based on It, No. 2001108284/03; appl. 29.03.2001; pub. 10.12.2001.

13.

V. D. Khalilev and N. V. Suzdal’, “Improvement of lithium-aluminosilicate glass composition for production of high-strength glass ceramics,” Steklo Keram., No. 2, 10 – 11 (2004); V. D. Khalilev and N. V. Suzdal’, “Improvement of lithium-aluminosilicate glass composition for production of high-strength glass ceramics,” Glass Ceram., 61(1 – 2), 42 – 43 (2004).

14.

G. H. Beall, Qiang Fu, Ch. M. Smith, Pat. 2016102010, USA, IPC C03C10/00; C03 C21/00, High Strength Glass-Ceramics Having Petalite and Lithium Silicate Structures, Corning Inc. ^¹ 14/878133, appl. 08.10.2015; publ. 14.04.2016.

15.

G. H. Beall, Pat. 20020013206, USA, IPC7 C03C10/08, Transparent Forsterite Glass-Ceramics, Corning Inc. No. 09/929554, appl. 14.08.2001; publ. 31.01.2002.

16.

J. F. MacDowell, Pat. 4576920, USA, IPC4 C03C10/02,B ₂ O ₃ –P ₂ O ₅ –SiO ₂ , Glass-Ceramics, Corning Inc. No. 737204, appl. 23.05.1985; publ. 18.03.1986.

17.

J. G. Darrant and C. Thompson, Pat. 2379659, GB, IPC7 C03B32/02; C03C10/00, Making a Transparent Glass-Ceramic Armour, Alstom Inc. No. 0122124.1, appl. 13.09.2001; publ. 19.03.2003.

18.

V. A. Zverev, E. V. Krivopustova, and T. V. Tochilina, Optical Materials. Pt. 2, Study Aid for Designers of Optical Systems and Devices, SPb NIU ITMO, St. Petersburg (2013).

19.

O. Savvova, O. Babich, M. Kuriakin, et al., “Investigation of structure formation in lithium silicate glasses on initial stages of nucleation,” Func. Mater., 24(2), 311 – 317 (2017).

20.

O. V. Savvova, V. L. Topchyi, Yu. O. Smyrnova, and D. V. Petrov, “Influence of viscosity on the structure formation of optically transparent glass-ceramic materials based on lithium disilicate during heat treatment,” Vopr. Khimii Khimich. Tekhnol., No. 6, 89 – 96 (2017).

Title: Technological Aspects of the Production of Optically Transparent Glass Ceramic Materials Based on Lithium-Silicate Glasses
Authors: O. V. Savvova
L. L. Bragina
D. V. Petrov
V. L. Topchii
S. A. Ryabinin
Publication date: 12-07-2018
Publisher: Springer US
Published in: Glass and Ceramics / Issue 3-4/2018
Print ISSN: 0361-7610
Electronic ISSN: 1573-8515
DOI: https://doi.org/10.1007/s10717-018-0041-6

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