Mechanochemical Activation on the Preparation of β-Eucryptite from Powder Mixture of Pyrophyllite, Gibbsite and Lithium Carbonate

Wantae Kim; Kwanho Kim; Hoon Lee

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Mechanochemical Activation on the Preparation of β-Eucryptite from Powder Mixture of Pyrophyllite, Gibbsite and Lithium Carbonate

机译：叶蜡石，菱镁矿和碳酸锂粉末混合物制备β-锂霞石的机械化学活化

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β-eucryptite (Li_2O·Al_2O_3·2SiO_2) was prepared by mechanochemical activation followed by calcination of the powder mixture containing pyrophyllite, gibbsite and lithium carbonate. XRD and FT-IR results showed that the crystallization of β-eucryptite occurred from the milled mixture by calcination. Dry milling using a planetary mill promoted the amorphization of the mixture. The crystallization of β-eucryptite increased with increment of milling time and calcination temperature. Trace amount of undesired phases such as cristobalite and quartz disappeared completely at 950°C in the mixture milled for 120min. The thermal expansion behavior characteristics were found to be strongly influenced by the milling time of the constituent powder mixture and calcination temperature.

机译：通过机械化学活化，然后煅烧含有叶蜡石，三水铝石和碳酸锂的粉末混合物，制备了β-锂霞石（Li_2O·Al_2O_3·2SiO_2）。 XRD和FT-IR结果表明，通过煅烧从研磨的混合物中发生了β-锂霞石的结晶。使用行星式研磨机的干磨促进了混合物的非晶化。 β-锂霞石的结晶度随着研磨时间和煅烧温度的增加而增加。在950°C下研磨120分钟的混合物中，微量的不希望有的相（如方石英和石英）完全消失。发现热膨胀行为特征受组成粉末混合物的研磨时间和煅烧温度的强烈影响。

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《Materials transactions》 |2013年第3期|共4页
作者
Wantae Kim; Kwanho Kim; Hoon Lee;
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正文语种 eng
中图分类冶金工业;
关键词
β-eucryptite; mechanochemical activation; crystallization; thermal expansion; pyrophyllite;

机译：β-锂霞石;机械化学活化;结晶;热膨胀;叶蜡石;

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1. Mechanochemical Activation on the Preparation of β-Eucryptite from Powder Mixture of Pyrophyllite, Gibbsite and Lithium Carbonate [J] . Wantae Kim, Kwanho Kim, Hoon Lee Materials transactions . 2013,第3期

机译：叶蜡石，菱镁矿和碳酸锂粉末混合物制备β-锂霞石的机械化学活化
2. Synthesis of Fine-Particle a-LiAlO_2 via Heat Treatment of a Mechanically Activated Mixture of Gibbsite and Lithium Carbonate [J] . Isupov V. P., Borodulina I. A., Niyazova R. N., Inorganic materials . 2019,第3期

机译：菱镁矿和碳酸锂机械活化混合物的热处理合成细颗粒α-LiAlO_2
3. Synthesis of Fine-Particle a-LiAlO_2 via Heat Treatment of a Mechanically Activated Mixture of Gibbsite and Lithium Carbonate [J] . Isupov V. P., Borodulina I. A., Niyazova R. N., Inorganic materials . 2019,第3期

机译：通过机械活化混合物和碳酸锂的机械活化混合物的热处理合成细颗粒A-LiAlo_2
4. Preparation of Lithium Niobate Powders by Mechanochemical Process [C] . Juhua Luo International conference on frontiers of manufacturing and design science . 2012

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5. Mechanochemical engineering for improved screening, selection, preparation, activation, and system development of heterogeneous catalysts. [D] . Hutchins, Joseph W. 2008

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6. Lithium and Chlorine-Rich Preparation of Mechanochemically Activated Antiperovskite Composites for Solid-State Batteries [O] . Yi Yang, Joah Han, Michael DeVita, 2020

机译：用于固态电池的机械化学活化的Astiperovskite复合材料的锂和氯富含锂制剂
7. Preparation of aluminosilicate precursor by mechanochemical method from gibbsite-fumed silica mixtures [O] . J Temuujin, T S Jadambaa, K Okada, 1998

机译：机械化学方法用Gibbes-Fumed二氧化硅混合物制备铝硅酸盐前体

Mechanochemical Activation on the Preparation of β-Eucryptite from Powder Mixture of Pyrophyllite, Gibbsite and Lithium Carbonate

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