合成石英玻璃中的羟基效应:热力学、紫外透过和结构的影响OA
Hydroxyl Effects in Synthetic Silica Glass:Influence of Thermodynamics,Ultraviolet Transmittance,and Structure
羟基作为石英玻璃制备与服役过程中普遍存在的非本征组分,其浓度对石英玻璃的性能具有重要影响.本文以商用JGS1(高羟基浓度)与JGS3(低羟基浓度)高纯合成石英玻璃为研究对象,利用差示扫描量热法、变温模量测试仪、拉曼光谱及真空紫外光谱等手段,系统探究了羟基对石英玻璃结构和宏观性能的影响规律.结果表明:羟基的引入导致石英玻璃的玻璃化转变温度降低了 64 K,且等压热容升高;当温度为300~1 300 K时,两类样品均表现出反常的模量升高行为,JGS1的弹性模量在300~1 300 K始终低于JGS3;拉曼光谱与真空紫外光谱表明,JGS1的三元环结构较少,且羟基的引入有效修复了缺氧缺陷,消除了 163 nm处的吸收峰,导致紫外截止边蓝移了 7 nm(从172 nm移至165 nm).本工作阐明了羟基对石英玻璃热力学性能和光学性能的影响,为高性能石英玻璃的成分设计提供了科学依据.
Hydroxyl groups,as ubiquitous extrinsic species present during preparation and service,significantly influence the comprehensive properties of silica glass.In this study,commercial JGS1(high-hydroxyl concentration)and JGS3(low-hydroxyl concentration)high-purity synthetic silica glass were selected to systematically investigate the effects of hydroxyls on material properties using differential scanning calorimetry(DSC),temperature-dependent modulus testing,Raman spectroscopy,and vacuum ultraviolet spectroscopy.The results demonstrate that the hydroxyl incorporation leads to a 64 K reduction in the glass transition temperature and an increase in the isobaric heat capacity.In the temperature range of 300~1 300 K,both samples exhibit anomalous modulus hardening behavior,and the elastic modulus of JGS1 remains consistently lower than that of JGS3.Raman and vacuum ultraviolet spectral analyses indicate that JGS1 possesses fewer three-membered ring structures,and the introduction of hydroxyls effectively repairs oxygen-deficient defects,eliminating the absorption peak at 163 nm and causing a 7 nm blue shift in the ultraviolet cut off edge(from 172 nm to 165 nm).This work elucidates the impact of hydroxyls on the thermomechanical and optical properties of silica glasses,providing a scientific basis for the compositional design of high-performance silica glasses.
程云涛;黄洺钧;郭超慧;乔昂;陶海征
武汉理工大学,硅酸盐科学与先进建材全国重点实验室,武汉 430070武汉理工大学,硅酸盐科学与先进建材全国重点实验室,武汉 430070武汉理工大学,硅酸盐科学与先进建材全国重点实验室,武汉 430070武汉理工大学,硅酸盐科学与先进建材全国重点实验室,武汉 430070武汉理工大学,硅酸盐科学与先进建材全国重点实验室,武汉 430070
化学化工
石英玻璃羟基化学致弱结构弛豫真空紫外透过
silica glasshydroxylchemical weakeningstructural relaxationvacuum ultraviolet transmittance
《硅酸盐通报》 2026 (3)
781-786,6
武汉市晨光计划(2024040801020267)国家自然科学基金面上项目(52572014)
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