纳米Nd_2O_3对熔融石英析晶机制的影响

利用XRD及Avrami方程对纯熔融石英陶瓷试样N-0与引入3%(w)纳米Nd2O3的熔融石英试样N-3进行等温析晶动力学过程研究。结果表明:两种试样的析晶机制相同,均为表面结构缺陷所致的不均匀成核类型,两种试样的晶粒生长方式均为二维生长伴随有一维及三维的生长方式,但加纳米Nd2O3的试样比不加的一维及三维生长程度更大;纳米Nd2O3的引入减少了熔融石英颗粒表面玻璃结构的"活性成核点",增加了熔融石英颗粒表面玻璃结构的稳定性,使析晶活化能由未加Nd2O3的874 kJ·mol-1提高到1 270 kJ·mol-1,明显降低了熔融石英的析晶率。

K-Mg-Al-Si-O-F玻璃析晶机制的研究

研究了ＫＭｇＡｌＳｉＯＦ系玻璃中组分Ｆ的引入方式对玻璃析晶机制的影响。以ＭｇＦ２方式引入Ｆ的玻璃发生分相，随后整体析出ＭｇＦ２，云母晶体以先析ＭｇＦ２作为异相质点成核长大，形成可切削的氟金云母微晶玻璃；而以ＫＦ方式引入Ｆ的玻璃在热处理过程中并不发生分相，结果只在其表面形成粗大枝晶状硅镁石。玻璃中Ｆ的引入方式不同导致了基础玻璃结构上的差异，从而导致了截然不同的两种析晶机制———体积析晶和表面析晶。

Li_2O·Al_2O_3·4SiO_2-Ta_2O_5系微晶玻璃分相与析晶机理研究

采用Ta2O5为晶核剂制备Li2O.Al2O3.4SiO2-Ta2O5微晶玻璃,并研究其分相、析晶机理,构建晶化模型.结果表明Ta2O5能有效促进玻璃的体积析晶,获得了晶粒尺寸为50nm的精细组织.非等温动力学计算显示随Ta2O5含量增加,析晶活化能降低,析晶指数增加,析晶动力学参数K(Tp)作为析晶判据更为合理.研究发现,LAST玻璃冷却时因亚稳分解导致互锁分相,形核前期又借助成核生长机制发生微滴分相,晶体生长则在继承亚稳分相形貌基础上发生"他形"析晶.最终构建了LAST微晶玻璃的晶化模型.

单相氟磷灰石微晶玻璃晶相特征和生物相容性研究

采用熔融-淬火-烧结法制备氟磷灰石微晶玻璃,研究其析晶机制和体外生物相容性。采用X射线衍射(XRD)和场发射扫描电镜(FE-SEM)分析了不同烧结温度下样品的晶相组成和微观结构,利用能量色散X射线光谱仪(EDS)分析了化学成分。结果表明,氟磷灰石是烧结微晶玻璃中的唯一晶相,其晶体可以在较宽的温度范围内析出。显微组织结构致密,显微硬度为644～709 Hv0. 1。氟磷灰石晶体在FE-SEM中有针状和多边形两种形态,多边形是短棒状晶体的横断面。低温下,以固相烧结为主,氟磷灰石析晶以表面析晶为主,晶体生长为针形;高温下玻璃液较多,在保温和冷却凝固过程中析出短棒状晶。在37℃温度下将样品在模拟体液中浸泡14 d,SEM/EDS和FT-IR检测结果表明,样品表面包含磷酸根和羟基的吸收带,形成了羟基磷灰石层,可作为骨或牙齿修复材料。

Synergistic effect of orientation and temperature on slip behavior and precipitation behavior of Al−Cu−Li single crystals

The slip behavior and precipitation behavior of four Al−Cu−Li single crystals with varying orientations at different temperatures were investigated using electron backscattering diffraction(EBSD)and transmission electron microscopy(TEM).The maximum differences in yield strength and ductility of the single crystals at room temperature are 41.6%and 14.7%,respectively.This indicates that the mechanical properties are strongly influenced by the crystal orientation.Moreover,grains with varying orientations exhibit distinct slip characteristics,including slip homogenization,slip localization,and multiple slip.In single crystal SC1,slip localization primarily contributes to its inferior ductility compared to other grains.Nevertheless,during deformation at 250℃,the distinct morphology and distribution of precipitates in the crystals are also correlated with orientation,which causes the increase in the maximum elongation difference to 20.8%in all selected single crystals.Notably,SC1,with a precipitate volume fraction of 2.65%,exhibits more severe slip localization compared to room temperature conditions,while SC2,with a precipitate volume fraction of 4.79%,demonstrates cross-slip characteristics,significantly enhancing the plastic deformation capacity of the Al−Cu−Li alloy.