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Thermal and Chemical Stability of Glass Fibers with a Boron Polymer Protective Coating

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A new protective coating comprised of polymethylene-n-triphenyl boric acid ester, which increases the heat and chemical resistance as well as the strength of glass fibers used in the manufacture of fiberglass for different applications, is proposed.

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Notes

  1. Here and below the content by weight, wt.%, unless stipulated otherwise.

References

  1. Yu. A. Mikhailin, Polymer Composite Materials for Construction [in Russian], Nauch. Osnovy i Tekhnologii, St. Petersburg (2008).

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  2. A. M. Belousov, A. G. Tuisov, and V. A. Bashara, “Effect of modifying boron polymer additive on the physical and mechanical characteristics and chemical resistance of fiber glass,” Polzunovskii Vestn., No. 1 – 2, 23 – 26 (2007).

  3. M. S. Aslanova and Z. I. Shaina, “Physical properties of the fibers of a glass-ceramic microstructure,” in: Proc. 1st All-Union Symposium on Glass Fibers, Moscow, February 7 – 9, 1967 [in Russian], Moscow (1967), pp. 93 – 100.

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The work was performed under financial support from the Ministry of Education and Science of the Russian Federation as part of the Special Federal Program ‘Research and Development in High-Priority Directions of Development of the Scientific and Technological Complex of Russian in 2014 – 2020’ (activity 1.4 of the program), application number 2014-14-5832-0002-025, for the project ‘Development of supports from composite materials and technical solutions for ultracompact high-voltage lines (UCHL) for different voltage classes (35 kV, 110 kV)’, contract No. 14.582.21.0001, unique identifier RFMEFI58214X0001.

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Authors and Affiliations

  1. Institute of Chemical Energy Technologies, Siberian Branch of the Russian Academy of Sciences, Biisk, Russia, Altai Krai

    D. E. Zimin

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  1. D. E. Zimin
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Correspondence to D. E. Zimin.

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Translated from Steklo i Keramika, No. 2, pp. 12 – 14, February, 2015.

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Zimin, D.E. Thermal and Chemical Stability of Glass Fibers with a Boron Polymer Protective Coating. Glass Ceram 72, 51–53 (2015). https://doi.org/10.1007/s10717-015-9721-7

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  • DOI: https://doi.org/10.1007/s10717-015-9721-7

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