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Residual Stresses in Transparent Glassceramics and Their Evolution During Step-by-Step Annealing

Received: 3 August 2015     Accepted: 17 August 2015     Published: 24 August 2015
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Abstract

Non-homogeneous cooling of glassceramics in the process of manufacturing brings about residual thermal stresses in bulk. Their evolution under annealing has been investigated by means of the method of modulation polarimetry. A 2D image enabled us to obtain tomograms of the distribution describing the value and sign of the uniaxial stress in the sample plane, which is parallel to the direction of a thermal flux. Relaxation of residual stresses has non-monotonic dependence versus the value of the annealing temperature. The nature of its origin has been discussed. Found in this work is coordinate dependence of a thermoelasticity coefficient, as well as its correlation with a stress function

Published in International Journal of Materials Science and Applications (Volume 4, Issue 5)
DOI 10.11648/j.ijmsa.20150405.12
Page(s) 288-292
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2015. Published by Science Publishing Group

Keywords

Thermoelasticity, Anisotropy, Birefringence, Modulation Polarimetry, Residual Stresses, Stress Optic Coefficient

References
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[3] S. Karlsson, B. Jonson, C. Stеlhandske. The technology of chemical glass strengthening (a review). Eur. J. Glass Sci. Technol. A, April 2010, 51 (2), pp. 41–54.
[4] Unsworth, J. & Duarte, F. J. (1979). Heat diffusion in a solid sphere and Fourier Theory. Am. J. Phys. Т. 47 (11), pp. 891–893.
[5] V. R. Mastelaro, E. D. Zanotto. Residual stresses in a soda-lime-silica glassceramics. Journal of Non-Crystalline Solids 194 (1996), pp. 297-304.
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[9] E. Coker, L. Filon. A Treatise on Photo-Elasticity. Cambridge University Press. 1931, p. 720.
[10] Max Mark Frocht. Photoelasticity. Volume I, II, 1948, p. 523.
[11] I. Minailova, I. Matyash, B. Serdega, V. Maslov, N. Kachur. Research on thermoelastic tension in two-layer structure of glassceramic ZERODUR by modulation polarimetry method. International Journal of Nano Research and Application 2014; 2(5), pp. 93-97.
[12] M. Born, E.Wolf. Principles of optics. Cambridge University Press, Cambridge (1968), p. 952.
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[14] V. R. Mastelaro, E. D. Zanotto. Anisotropic residual stresses in partially crystallized Li2O-2SiO2 glassceramics. Journal of Non-Crystalline Solids 247 (1999), pp. 79-86.
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  • APA Style

    Igor Matyash, Irina Minailova, Boris Serdega, Volodymyr Maslov, Nataliya Kachur. (2015). Residual Stresses in Transparent Glassceramics and Their Evolution During Step-by-Step Annealing. International Journal of Materials Science and Applications, 4(5), 288-292. https://doi.org/10.11648/j.ijmsa.20150405.12

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    ACS Style

    Igor Matyash; Irina Minailova; Boris Serdega; Volodymyr Maslov; Nataliya Kachur. Residual Stresses in Transparent Glassceramics and Their Evolution During Step-by-Step Annealing. Int. J. Mater. Sci. Appl. 2015, 4(5), 288-292. doi: 10.11648/j.ijmsa.20150405.12

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    AMA Style

    Igor Matyash, Irina Minailova, Boris Serdega, Volodymyr Maslov, Nataliya Kachur. Residual Stresses in Transparent Glassceramics and Their Evolution During Step-by-Step Annealing. Int J Mater Sci Appl. 2015;4(5):288-292. doi: 10.11648/j.ijmsa.20150405.12

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  • @article{10.11648/j.ijmsa.20150405.12,
      author = {Igor Matyash and Irina Minailova and Boris Serdega and Volodymyr Maslov and Nataliya Kachur},
      title = {Residual Stresses in Transparent Glassceramics and Their Evolution During Step-by-Step Annealing},
      journal = {International Journal of Materials Science and Applications},
      volume = {4},
      number = {5},
      pages = {288-292},
      doi = {10.11648/j.ijmsa.20150405.12},
      url = {https://doi.org/10.11648/j.ijmsa.20150405.12},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijmsa.20150405.12},
      abstract = {Non-homogeneous cooling of glassceramics in the process of manufacturing brings about residual thermal stresses in bulk. Their evolution under annealing has been investigated by means of the method of modulation polarimetry. A 2D image enabled us to obtain tomograms of the distribution describing the value and sign of the uniaxial stress in the sample plane, which is parallel to the direction of a thermal flux. Relaxation of residual stresses has non-monotonic dependence versus the value of the annealing temperature. The nature of its origin has been discussed. Found in this work is coordinate dependence of a thermoelasticity coefficient, as well as its correlation with a stress function},
     year = {2015}
    }
    

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    AU  - Igor Matyash
    AU  - Irina Minailova
    AU  - Boris Serdega
    AU  - Volodymyr Maslov
    AU  - Nataliya Kachur
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    DO  - 10.11648/j.ijmsa.20150405.12
    T2  - International Journal of Materials Science and Applications
    JF  - International Journal of Materials Science and Applications
    JO  - International Journal of Materials Science and Applications
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    PB  - Science Publishing Group
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    UR  - https://doi.org/10.11648/j.ijmsa.20150405.12
    AB  - Non-homogeneous cooling of glassceramics in the process of manufacturing brings about residual thermal stresses in bulk. Their evolution under annealing has been investigated by means of the method of modulation polarimetry. A 2D image enabled us to obtain tomograms of the distribution describing the value and sign of the uniaxial stress in the sample plane, which is parallel to the direction of a thermal flux. Relaxation of residual stresses has non-monotonic dependence versus the value of the annealing temperature. The nature of its origin has been discussed. Found in this work is coordinate dependence of a thermoelasticity coefficient, as well as its correlation with a stress function
    VL  - 4
    IS  - 5
    ER  - 

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Author Information
  • V. Lashkaryov Institute of Semiconductor Physics NAS of Ukraine, Kyiv, Ukraine

  • V. Lashkaryov Institute of Semiconductor Physics NAS of Ukraine, Kyiv, Ukraine

  • V. Lashkaryov Institute of Semiconductor Physics NAS of Ukraine, Kyiv, Ukraine

  • V. Lashkaryov Institute of Semiconductor Physics NAS of Ukraine, Kyiv, Ukraine

  • V. Lashkaryov Institute of Semiconductor Physics NAS of Ukraine, Kyiv, Ukraine

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