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Xia, Mei, Yang, Xiaoyong, Hou, Zhenhui (2024) Preparation of High-Purity Quartz Sand by Vein Quartz Purification and Characteristics: A Case Study of Pakistan Vein Quartz. Minerals, 14 (7) doi:10.3390/min14070727

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Reference TypeJournal (article/letter/editorial)
TitlePreparation of High-Purity Quartz Sand by Vein Quartz Purification and Characteristics: A Case Study of Pakistan Vein Quartz
JournalMinerals
AuthorsXia, MeiAuthor
Yang, XiaoyongAuthor
Hou, ZhenhuiAuthor
Year2024Volume<   14   >
Issue<   7   >
URL
DOIdoi:10.3390/min14070727Search in ResearchGate
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Mindat Ref. ID17502531Long-form Identifiermindat:1:5:17502531:4
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Full ReferenceXia, Mei, Yang, Xiaoyong, Hou, Zhenhui (2024) Preparation of High-Purity Quartz Sand by Vein Quartz Purification and Characteristics: A Case Study of Pakistan Vein Quartz. Minerals, 14 (7) doi:10.3390/min14070727
Plain TextXia, Mei, Yang, Xiaoyong, Hou, Zhenhui (2024) Preparation of High-Purity Quartz Sand by Vein Quartz Purification and Characteristics: A Case Study of Pakistan Vein Quartz. Minerals, 14 (7) doi:10.3390/min14070727
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Abstract/NotesThis study focuses on the purification and evaluation of the high-purity quartz (HPQ) potential of vein quartz ore from Pakistan. Vein quartz is grayish-white and translucent, with its mineral composition mainly comprising quartz crystal. Processed quartz sand is obtained from quartz raw ore through purifying technologies, including crushing, ultrasonic desliming, flotation, high-temperature calcination, water quenching, hot pressure acid leaching, and chlorination roasting. The microscopic characteristics show that the vein quartz raw ore has a medium-coarse granular metacrystalline structure, high quartz content, with only a small quantity of fine-grained K-feldspar. The inclusions primarily consist of large-sized primary inclusions and secondary fluid inclusions developed along the micro-fractures, and the content of inclusions in most areas of the crystal is very low or even nonexistent. The quartz ore with such inclusion characteristics is considered a relatively good raw material for quartz. Component analysis shows that the main impurity elements in the quartz ore are Al, K, Ca, Na, Ti, Fe, and Li, with a total impurity element content of 128.86 µg·g−1. After purification, only lattice impurity elements Al, Ti, and Li remain in the processed quartz sand, resulting in a total impurity element content of 24.23 µg·g−1, an impurity removal rate of 81.20%, and the purity of SiO2 reaching 99.998 wt.%. It is suggested that when the quartz raw ore contains high content of lattice impurity elements, such as Al, Li, and Ti, it is difficult to remove them by the current purification method. In industrial production, considering the economic cost, if quartz sand still contains high content of lattice impurity elements Al, Ti, and Li after flotation, it cannot be used as a raw material for high-end HPQ.

Locality Pages

LocalityCitation Details
Khyber Pakhtunkhwa Province, Pakistan

Mineral Pages

MineralCitation Details
Quartz

Mineral Occurrences

LocalityMineral(s)
Khyber Pakhtunkhwa Province, Pakistanⓘ K Feldspar, ⓘ Quartz

See Also

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Xia, Mei, Yang, Xiaoyong, Hou, Zhenhui (2024) Preparation of High-Purity Quartz Sand by Vein Quartz Purification and Characteristics: A Case Study of Pakistan Vein Quartz. Minerals, 14 (7) 727 doi:10.3390/min14070727
Xie, Yutian, Xia, Mei, Yang, Xiaoyong, Khan, Ibrar, Hou, Zhenhui (2024) Research on 4N8 High-Purity Quartz Purification Technology Prepared Using Vein Quartz from Pakistan. Minerals, 14 (10). doi:10.3390/min14101049
Xia, Mei, Sun, Chao, Yang, Xiaoyong, Chen, Jian (2023) Assessment of Gold-Bearing Quartz Vein as a Potential High-Purity Quartz Resource: Evidence from Mineralogy, Geochemistry, and Technological Purification. Minerals, 13 (2) 261 doi:10.3390/min13020261
Wang, Shoujing, Yu, Deshui, Ma, Chi, Wei, Fushuai, Zhang, Haiqi (2024) A New Insight into the Influence of Fluid Inclusions in High-Purity Quartz Sand on the Bubble Defects in Quartz Glass: A Case Study from Vein Quartz in the Dabie Mountain. Minerals, 14 (8) doi:10.3390/min14080794
Khan, Ibrar, Yang, Xiaoyong, Xia, Mei, Hou, Zhenhui (2025) Analyzing petrographic characteristics and trace element distribution of high-purity quartz deposits from the Peshawar Basin, Pakistan: insights into processing and purification techniques. European Journal of Mineralogy, 37 (2). 151-167 doi:10.5194/ejm-37-151-2025
Magar, Jamuna Thapa, Yang, Xiaoyong, Li, Kaiwen, Xia, Mei, Li, Xiaoyu, Cai, Zhichao (2024) Mineralogical Characteristics and Purification Experiments of Quartz from a Pegmatite: A Case Study in the Lushi Region of the Qinling Orogenic Belt, Central China. Minerals, 14 (12). doi:10.3390/min14121225
Du, Shuhua, Pan, Banglong, Xia, Liang, Zhu, Guoqing, Wu, Lei, Yu, Changjun, Li, Fan, Diao, Zhuo (2024) Purification of Vein Quartz Using a New Fluorine-Free Flotation: A Case from Southern Anhui Province, China. Minerals, 14 (12). doi:10.3390/min14121191
Li, Yubiao, Ma, Qiang, Xia, Zhangjie, Li, Wanqing, Lei, Shaomin (2023) Influences of Na2CO3 roasting and H3PO4 hot-pressure leaching on the purification of vein quartz to achieve high-purity quartz. Hydrometallurgy, 218. 106065 doi:10.1016/j.hydromet.2023.106065
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, , , , , (2017) Mineralogy and Processing of Hydrothermal Vein Quartz from Hengche, Hubei Province (China) Minerals, 7 (9) 161 doi:10.3390/min7090161
Huang, Hongjun, Zhang, Ning (2024) Study on the Preparation of High-Quality Quartz and Its Mechanism by Combining Pretreatment with Metallurgy. Minerals, 14 (12). doi:10.3390/min14121229
 
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