Crystallization behavior and microstructure of ZnO–Al2O3–SiO2–B2O3-based glass-ceramics using MgO and CaO modifiers

IF 3.2 3区 材料科学 Q1 MATERIALS SCIENCE, CERAMICS Journal of Non-crystalline Solids Pub Date : 2024-09-17 DOI:10.1016/j.jnoncrysol.2024.123230
Jiwon Choi, Kangduk Kim
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Abstract

The role of glass-structure modifiers was examined by analyzing the crystallization behavior and microstructure of a ZnO–Al2O3–SiO2–B2O3 glass system with MgO and CaO substitutions. Differential thermal analysis indicated that the crystallization temperature (Tp) increased with MgO substitution but decreased with CaO substitution. X-ray diffraction analysis demonstrated that increasing the amounts of MgO and CaO led to the formation of a gahnite crystalline phase after treatment at 1200 °C. Nano-sized crystals were observed when the specimen was heat-treated at 1000 °C, and dendrite crystals were observed on the surface when treated at 1200 °C. Non-isothermal analysis revealed that the substitution with MgO and CaO resulted in surface crystallization behaviors with high activation energies (271.72 and 301.75 k·J·mol-1) and low Avrami constants (2.05 and 1.67). Micro-Vickers hardness showed maximum values of 7.65 and 6.86 GPa when MgO and CaO were substituted, respectively.

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使用氧化镁和氧化钙改性剂的 ZnO-Al2O3-SiO2-B2O3 基玻璃陶瓷的结晶行为和微观结构
通过分析氧化镁和氧化钙替代物 ZnO-Al2O3-SiO2-B2O3 玻璃体系的结晶行为和微观结构,研究了玻璃结构改性剂的作用。差热分析表明,结晶温度(Tp)随氧化镁的替代而升高,但随氧化钙的替代而降低。X 射线衍射分析表明,氧化镁和氧化钙含量的增加会导致在 1200 ℃ 处理后形成芒硝结晶相。试样在 1000 ℃ 热处理时可观察到纳米大小的晶体,在 1200 ℃ 处理时表面可观察到树枝状晶体。非等温分析表明,用氧化镁和氧化钙替代后,表面结晶行为的活化能较高(271.72 和 301.75 k-J-mol-1),阿夫拉米常数较低(2.05 和 1.67)。当取代氧化镁和氧化钙时,显微维氏硬度的最大值分别为 7.65 和 6.86 GPa。
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来源期刊
Journal of Non-crystalline Solids
Journal of Non-crystalline Solids 工程技术-材料科学:硅酸盐
CiteScore
6.50
自引率
11.40%
发文量
576
审稿时长
35 days
期刊介绍: The Journal of Non-Crystalline Solids publishes review articles, research papers, and Letters to the Editor on amorphous and glassy materials, including inorganic, organic, polymeric, hybrid and metallic systems. Papers on partially glassy materials, such as glass-ceramics and glass-matrix composites, and papers involving the liquid state are also included in so far as the properties of the liquid are relevant for the formation of the solid. In all cases the papers must demonstrate both novelty and importance to the field, by way of significant advances in understanding or application of non-crystalline solids; in the case of Letters, a compelling case must also be made for expedited handling.
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