项目名称: 基于A/B位离子固溶的新型AlON系尖晶石型透明陶瓷体系设计、制备与性能调控研究
项目编号: No.51472195
项目类型: 面上项目
立项/批准年度: 2015
项目学科: 一般工业技术
项目作者: 王皓
作者单位: 武汉理工大学
项目金额: 83万元
中文摘要: 透明结构陶瓷兼具优异光学和机械性能,在国防和民用领域用途广阔。但目前仅有的两种尖晶石型陶瓷(MgAl2O4和γ-AlON)已难以满足需求,因此发展新的材料体系及性能调控手段势在必行。本项目从γ-AlON晶体结构出发,通过固溶取代在A/B位有目的地引入不同离子,构建AlON系尖晶石新晶体;基于第一性原理计算,阐明A/B位离子固溶对晶体结构及本征性质的影响,指导新型AlON系透明陶瓷的体系设计;以理论模拟结合实验研究,制备出具有设计组成与晶体结构的新型AlON系透明陶瓷;详细分析A/B位离子分布特征、系统评价材料性能,揭示离子引入对材料组成、结构和性能的影响规律,实现新型AlON系透明陶瓷的设计、制备与性能调控。通过本项目研究,预期在透明陶瓷新体系设计与制备、复杂尖晶石组成-晶体结构-本征性质关系、尖晶石型透明陶瓷性能调控等方面取得若干创新性成果,相关研究在基础理论和工程应用方面都具有重要意义
中文关键词: 透明陶瓷;AlON尖晶石;阳离子固溶;材料设计;性能调控
英文摘要: Possessing both outstanding optical and mechanical properties, transparent structural ceramics have been widely used in national defense and civil application fields. However, There are only two spinel-type ceramics (MgAl2O4 and γ-AlON), which has already made it difficult to meet the requirements of application. Thus, it is necessity to develop novel materials and property-adjustment approaches. In this project, novel AlON serial spinels will be constructed by purposefully introducing cations into A/B sites through substitutional solid solute based on γ-AlON crystal structure. By the first-principles calculation, the influence of A/B site cations on crystal structures and intrinsic properties of spinels, which will be used as the guidance for the design of novel AlON serial transparent ceramics, will be clarified. According to the combination of theoretical simulation and experimental studies, novel AlON serial transparent ceramics with designed composition and crystal structure will be prepared. After analyzing the distribution of A/B site cations in detail and systematically evaluating material properties, the influence of A/B site cations on materials composition, crystal structures and properties of spinels will be revealed. Finally, the design, preparation and property adjustment of novel AlON serial transparent ceramics will be realized. Through these research, it is anticipated that some innovative achievement will be made in the fields of the design and preparation of novel transparent ceramics, the relation among composition-crystal structure-intrinsic properties in complex spinels as well as the approach for property adjustment in spinel-type transparent ceramics. The research results will give significant impact on both basic theories and engineering application.
英文关键词: Transparent ceramics;AlON spinel;solid solution of cations;materails design;property adjustment