Journal of Materials Science and Chemical Engineering

Journal of Materials Science and Chemical Engineering

ISSN Print: 2327-6045
ISSN Online: 2327-6053
www.scirp.org/journal/msce
E-mail: msce@scirp.org
"Ultraslow Relaxation Process of Static Light Scattering Intensity by Boron Oxide above the Glass Transition Temperature"
written by N. A. Bokov,
published by Journal of Materials Science and Chemical Engineering, Vol.3 No.7, 2015
has been cited by the following article(s):
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[1] Light scattering by boron oxide in the temperature range of 225–330° C
Glass Physics and Chemistry, 2017
[2] Specifics of light scattering and optical anisotropy of boron oxide melt
Glass Physics and Chemistry, 2017
[3] РАССЕЯНИЕ СВЕТА ОКСИДОМ БОРА В ТЕМПЕРАТУРНОМ ИНТЕРВАЛЕ 225-330° С
2017
[4] Специфика светорассеяния и оптическая анизотропия расплава оксида бора
2017
[5] УНИВЕРСАЛЬНЫЙ ХАРАКТЕР РЕЛАКСАЦИИ ИНТЕНСИВНОСТИ СВЕТОРАССЕЯНИЯ РАСПЛАВОМ ОКСИДА БОРА В ИНТЕРВАЛЕ 300-340° С
2016
[6] Особенности светорассеяния стеклообразным оксидом бора
2016
[7] Hysteresis in the temperature dependence of the intensity of light scattering by boron oxide melt in the 300–450 C temperature range
Glass Physics and Chemistry, 2016
[8] Универсальный характер релаксации интенсивности светорассеяния расплавом оксида бора в температурном интервале 300-340° С
2016
[9] Гистерезис температурной зависимости интенсивности светорассеяния расплавом оксида бора в интервале 300-450° С
2016
[10] Peculiarities of light scattering by boron oxide glass
Glass Physics and Chemistry, 2016
[11] Hysteresis in the temperature dependence of the intensity of light scattering by boron oxide melt in the 300–450° C temperature range
Glass Physics and Chemistry, 2016
[12] Universal character of relaxation of the intensity of light scattering by boron oxide melt in the temperature range 300–340° C
Glass Physics and Chemistry, 2016
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