Mineralogy, Chemistry, and Thermal and Surface Properties of Various Technological Types of K-Bentonite from the Dolná Ves Deposit (Kremnické vrchy Mts., Western Carpathians, Slovakia)

IF 2 4区 地球科学 Q4 CHEMISTRY, PHYSICAL
M. Osacký, Y. Bai, P. Uhlík, H. Pálková, M. Čaplovičová
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Abstract

The Dolná Ves K-bentonite deposit is one of a few known economic accumulations of illite-smectite in the world. Several studies have been done on the illite-smectitic component isolated from the Dolná Ves K-bentonite, but there is a shortage of analytical data on the K-bentonite itself. The main goal of the present study was to perform mineralogical and physico-chemical characterizations of various technological types of K-bentonites from the Dolná Ves deposit to better understand the relationships between the various qualitative types and their properties. The type I (high-grade) K-bentonite contains 88–91 wt.% of illite-smectite. The type II (low-grade) K-bentonite contained substantially less illite-smectite, ranging from 37 to 63 wt.%. The illite-smectites isolated from the type I K-bentonites displayed greater expandability, contained more octahedral Mg and less octahedral Fe, had greater cation exchange capacity (CEC), smaller thickness of fundamental particles, and thinner illite-smectite crystals in comparison with illite-smectites from the type II K-bentonites. The LOI (loss-on-ignition) and Al2O3 content increased with increasing amount of illite-smectite. The increase in the expandability by 10% corresponded to an increase in CEC by ~10 meq/100 g. The type I K-bentonites had much greater mass loss at <250°C due to greater expandability. The best tilemaking performance was expected for the type I K-bentonite. This raw material could also be potentially valuable for the pharmaceutical, cosmetic and food industries. Overall, the results showed that the studied technological types of K-bentonites from the Dolná Ves deposit differ not only in terms of illite-smectite contents but also in terms of the nature of the illite-smectites.

Abstract Image

来自 Dolná Ves 矿藏(斯洛伐克西喀尔巴阡山脉 Kremnické vrchy 山)的各种技术类型 K-膨润土的矿物学、化学、热学和表面特性
Dolná Ves K-膨润土矿床是世界上已知的为数不多的伊利石-闪长岩经济储量之一。针对从 Dolná Ves K-膨润土中分离出的伊利石-闪长岩成分已经进行了多项研究,但有关 K-膨润土本身的分析数据却十分匮乏。本研究的主要目的是对来自 Dolná Ves 矿床的各种技术类型的 K-膨润土进行矿物学和物理化学特征分析,以更好地了解各种定性类型及其特性之间的关系。I 型(高品位)K-膨润土含有 88-91 重量%的伊利石-闪长岩。II 型(低品位)K-膨润土中的伊利石-闪长岩含量要少得多,从 37% 到 63%不等。与来自 II 型 K- 膨润土的伊利石-闪长岩相比,从 I 型 K- 膨润土中分离出来的伊利石-闪长岩具有更高的膨胀性,含有更多的八面体镁和更少的八面体铁,阳离子交换容量(CEC)更大,基本颗粒厚度更小,伊利石-闪长岩晶体更薄。随着伊利石-直闪石含量的增加,LOI(点火损耗)和 Al2O3 含量也随之增加。膨胀性增加 10% 相当于 CEC 增加约 10 meq/100 g。由于膨胀性更大,I 型 K-膨润土在 <250°C 时的质量损失更大。预计 I 型 K-膨润土的制瓦性能最好。这种原料对制药、化妆品和食品工业也有潜在价值。总之,研究结果表明,所研究的 Dolná Ves 矿床 K-膨润土的技术类型不仅在伊利石-闪长岩含量方面存在差异,而且在伊利石-闪长岩的性质方面也存在差异。
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来源期刊
Clays and Clay Minerals
Clays and Clay Minerals 地学-地球科学综合
CiteScore
3.40
自引率
9.10%
发文量
46
审稿时长
3 months
期刊介绍: Clays and Clay Minerals aims to present the latest advances in research and technology concerning clays and other fine-grained minerals, including but not limited to areas in agronomy, ceramics, colloid chemistry, crystallography, environmental science, foundry engineering, geochemistry, geology, medicinal chemistry, mineralogy, nanoscience, petroleum engineering, physical chemistry, sedimentology, soil mechanics, and soil science. Clays and Clay Minerals exists to disseminate to its worldwide readership the most recent developments in all of these aspects of clay materials. Manuscripts are welcome from all countries.
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