High temperature near IR spectral absorption of clear SiO2-based glasses

IF 2.1 3区材料科学 Q2 MATERIALS SCIENCE, CERAMICS

International Journal of Applied Glass Science Pub Date : 2023-05-02 DOI:10.1111/ijag.16636

A. J. Faber, Domingos de Sousa Meneses, Peter A. van Nijnatten

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Abstract

Experimental high temperature near infrared (NIR) absorption spectra of different SiO₂-based glasses, including lead silicate crystal glass, clear soda lime silicate (SLS) glass and fused silica with low and high OH content, are compared. The more polarizable the glass, the stronger is the increase in the high temperature NIR absorption at wavelengths < 2 µm, involving a red shift of the optical bandgap edge with increasing temperature. It appears that the modified glassy Urbach's rule provides a framework for describing the temperature red shift of the absorption edge of lead silicate crystal glass, even above T_g. This red shift causes a 4–7 times lower Rosseland thermal radiation conductivity of lead crystal glass melts compared to clear SLS glass melts. Low OH fused silica is practically transparent for NIR thermal radiation, also at high temperatures above T_g. Incorporation of water in fused silica increases the NIR absorption in the spectral region 1.7–3.4 µm, for all temperatures. An upper limit of the diffusion coefficient D of water in fused silica was estimated from the time to measure the high temperature NIR spectra of thin (∼2 mm) samples: D < 4 * 10⁻¹⁰ m²/s at temperatures up to around 2000°C.

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透明sio2基玻璃的高温近红外光谱吸收

比较了低、高OH含量的硅酸铅晶体玻璃、透明钠钙硅酸盐(SLS)玻璃和熔融石英等不同sio2基玻璃的实验高温近红外吸收光谱。玻璃偏振性越强，波长<处的高温近红外吸收增加越强;2µm，涉及光学带隙边缘随温度升高的红移。由此看来，改进的玻态乌尔巴赫规则为描述硅酸铅晶体玻璃吸收边的温度红移提供了一个框架，甚至在Tg以上。这种红移导致铅晶体玻璃熔体的Rosseland热辐射导电性比透明SLS玻璃熔体低4-7倍。低OH熔融二氧化硅对近红外热辐射几乎是透明的，在Tg以上的高温下也是如此。在熔融石英中掺入水增加了光谱区域1.7-3.4µm的近红外吸收，适用于所有温度。根据测量薄(~ 2 mm)样品的高温近红外光谱的时间，估计了熔融二氧化硅中水的扩散系数D的上限:D <4 * 10−10 m2/s，温度可达2000℃左右。

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来源期刊

International Journal of Applied Glass Science MATERIALS SCIENCE, CERAMICS-

CiteScore

4.50

自引率

9.50%

发文量

审稿时长

>12 weeks

期刊介绍： The International Journal of Applied Glass Science (IJAGS) endeavors to be an indispensable source of information dealing with the application of glass science and engineering across the entire materials spectrum. Through the solicitation, editing, and publishing of cutting-edge peer-reviewed papers, IJAGS will be a highly respected and enduring chronicle of major advances in applied glass science throughout this century. It will be of critical value to the work of scientists, engineers, educators, students, and organizations involved in the research, manufacture and utilization of the material glass. Guided by an International Advisory Board, IJAGS will focus on topical issue themes that broadly encompass the advanced description, application, modeling, manufacture, and experimental investigation of glass.