Effect of Nanocrystalline Magnesium Aluminate Precursor and Powder Granulometryon Spinellization and Densification to Develop Magnesium Aluminate Spinel Aggregates

IF 1.5 4区材料科学 Q3 MATERIALS SCIENCE, CERAMICS Transactions of the Indian Ceramic Society Pub Date : 2021-07-03 DOI:10.1080/0371750X.2021.1915873

Theerthagiri Viswanathan, S. Pal, A. Rahaman, P. Pal

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Abstract

Nanocrystalline spinel forming precursor spinel hydrate (PSH), prepared by co-precipitation technique with controlled concentration of mixed salt, pH, temperature and time, was used as additive in calcined alumina-dead burnt magnesia (DBM) admixture to develop spinel (MgAl2O4) aggregates. Powder granulometry, mixing and dispersion of additive PSH were controlled during milling. Three batches of varying particle size distribution with same proportion of additive were used for body making. Firing was conducted in 1500°-1650°C temperature range. True specific gravity (TSG) of alumina, DBM, spinel and individual fired pellets were used to estimate wt% spinel formation based on the derived mass balance equation and subsequently verified by X-ray diffraction (XRD) analysis. Fired properties, i.e. bulk density, apparent porosity, closed porosity, %linear shrinkage and densification rate were measured. XRD was conducted for phase analysis. SEM and HR-TEM were performed to study the grain/ pore morphology and elemental analysis was done to calculate the spinel stoichiometry. PSH was found to have positive effect both in spinellization and densification; the effect gradually decreased with finer particle size distribution and increasing firing temperatures. The maximum fired density achieved for three batches were 89.21, 92.84 and 96.2% ρth, respectively. Based on the requirements of specific powder granulometry, addition of PSH and firing schedule can be used for bulk production of spinel aggregates. GRAPHICAL ABSTRACT

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纳米晶铝酸镁前驱体和颗粒状粒子尖晶石化致密化对铝酸镁尖晶石聚集体的影响

在控制混合盐浓度、pH、温度和时间的条件下，采用共沉淀法制备了纳米尖晶石形成前驱体水合尖晶石(PSH)，并将其作为添加剂添加到煅烧铝-死烧镁(DBM)混合物中，形成尖晶石(MgAl2O4)聚合体。在制粉过程中对粉末粒度、添加剂PSH的混合和分散进行了控制。采用三批不同粒度分布、相同添加比例的添加剂进行制坯。在1500°-1650°C的温度范围内进行烧制。根据导出的质量平衡方程，利用氧化铝、DBM、尖晶石和单个烧结球团的真比重(TSG)来估算尖晶石形成的wt%，随后通过x射线衍射(XRD)分析进行验证。测量了烧结性能，即体积密度、表观孔隙率、封闭孔隙率、%线收缩率和致密率。采用XRD进行物相分析。采用扫描电镜(SEM)和透射电镜(HR-TEM)研究了尖晶石的晶粒/孔隙形态，并用元素分析计算了尖晶石的化学计量学。PSH对尖晶尖的形成和致密化均有积极作用;随着颗粒粒度分布的细化和烧成温度的升高，效果逐渐降低。得到的最大烧结密度分别为89.21、92.84和96.2% ρth。根据特定粉体粒度的要求，添加PSH和烧制工艺可用于批量生产尖晶石骨料。图形抽象

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来源期刊

Transactions of the Indian Ceramic Society 工程技术-材料科学：硅酸盐

CiteScore

2.40

自引率

8.30%

发文量

审稿时长

2.3 months

期刊介绍： Transactions of the Indian Ceramic Society is a quarterly Journal devoted to current scientific research, technology and industry-related news on glass and ceramics. The Journal covers subjects such as the chemical, mechanical, optical, electronic and spectroscopic properties of glass and ceramics, and characterization of materials belonging to this family. The Editor invites original research papers, topical reviews, opinions and achievements, as well as industry profiles for publication. The contributions should be accompanied by abstracts, keywords and other details, as outlined in the Instructions for Authors section. News, views and other comments on activities of specific industries and organizations, and also analyses of industrial scenarios are also welcome.