CSPL [CSPL] Prof. Jung-Wook Cho: Thermal history driven molecular structure transitions in alumino-borosi…
페이지 정보
작성자 최고관리자
댓글 0건 조회 423회 작성일 2019-08-23 13:03
본문
The glass network structure governs various thermos-physical properties such as viscosity, thermal, and electrical conductivities, and crystallization kinetics. We investigated the effect of temperature on structural changes in a Na2O-CaOAl2O3-SiO2-B2O3 glass system using 27Al MAS NMR spectroscopy. Around the glass transition temperature, most of aluminate structures exist as AlO4, acting as a glass former. When the temperature is above the melt crystallization temperature, the AlO4 structure is drastically decreased and glass structures are mainly composed of AlO5 and AlO6, acting as glass modifiers. Thermodynamic assessment based on Gibbs energy minimization was used to confirm the dependency of aluminate structure’s amphoteric characteristic on temperature by calculating the site fraction of aluminate molecular structures at different temperatures. Temperature-induced aluminate structural variation can also influence silicate and
borate structural changes, which have been confirmed by the 29Si and 11B NMR spectra.
KEYWORDS
glass network, molecular structure, solid-state MAS NMR, structural variations, temperature effect
- 이전글[CSPL] Prof. Jung-Wook Cho: Numerical modeling of oxide particle evolution during additive manufacturing 22.02.08
- 다음글[CSPL] Prof. Jung-Wook Cho: Thermal history driven molecular structure transitions in alumino-borosilicate glass 18.09.30
댓글목록
등록된 댓글이 없습니다.