INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
|
|
|
|
|
Research Progress on Mineralogical Characteristics, Processing and Utilization of Black Talc |
LIU Xi1,2,3, LIANG Xiaozheng1,3, YANG Huaming1,3,4,5,*
|
1 School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, China 2 Jiangxi Province Natural Resources Interests and Reserve Security Center, Nanchang 330025, China 3 Hunan Key Laboratory for Mineral Materials and Application, Central South University, Changsha 410083, China 4 Engineering Research Center of Nano-Geomaterials of Ministry of Education, China University of Geosciences, Wuhan, Wuhan 430074, China 5 Key Laboratory of Functional Geomaterials in China Nonmetallic Minerals Industry, China University of Geosciences, Wuhan, Wuhan 430074, China |
|
|
Abstract Black talc is ubiquitous and widely used in China. In recent years, China has made significant efforts to develop black talc clay minerals in order to meet the needs of economic development and the growing demand of people. Talc is an important non-metallic mineral in China at a critical juncture in its strategic economic development and a breakthrough in future mineral functional materials development. It also has a commendable potential to address major national strategies and development needs. Black talc is a natural clay mineral with a specific 2∶1 layered (T-O-T) silicate crystal structure;due to its good biocompatibility, excellent physicochemical properties, and unique morphologic structure, black talc has great application potential in emerging environmental protection, energy, and biomedical fields. Black talc is currently predominantly treated as white talc by whitening technologies used in the traditional ceramic industry and as a basic filler. The research is primarily focused on effective whitening and ultra-fine processing technology. However, the calcination of black talc into white talc is a significant loss since white talc application in conventional industry is unique from white talc's distinctive carboniferous laminate silicate crystal structure and physical and chemical properties. Based on the physicochemical properties of talc, the structure and properties of the mineral were investigated through intercalation, stripping, acid leaching, surface modification, and high-tech characterization, with successful outcomes in water treatment, high-tech materials, and biomedical materials. This work reviews the research progress of strategic applications based on black talc. It expounds on the advantages of black talc matrix composites in energy conservation, environmental protection, new energy and biomedicine. Furthermore, future research directions for black talc matrix composites are discussed. This paper can provide a reference for exploring new, efficient materials such as wastewater adsorbents, new energy carbon materials, stealth materials and non-metallic antibacterial materials.
|
Published: 10 November 2023
Online: 2023-11-10
|
|
Fund:National Key R & D Program of China (2017YFB0310903). |
|
|
1 Pi-Puig T, Animas-Torices D Y, Solé J. Minerals, 2020, 10(5), 388. 2 Jiang D Y. Talc, China Architecture and Building Press,China, 1978, pp. 17 (in Chinese). 江德玉. 滑石, 中国建筑工业出版社, 1978, pp. 17. 3 Xue Y H, Guo T T, Xue Z. Multipurpose Utilization of Mineral Resources, 2011(6), 34 (in Chinese). 薛彦辉, 郭婷婷, 薛真. 矿产综合利用, 2011(6), 34. 4 Chen Z G, Yan L Y, Gao S X. China Non-metallic Minerals Industry, 2021(2), 8 (in Chinese). 陈正国, 颜玲亚, 高树学. 中国非金属矿工业导刊, 2021(2), 8. 5 Li P, Liu W L, Yang S C. Bulletin of the Chinese Ceramic Society, 2013, 32(4), 668 (in Chinese). 李萍, 刘文磊, 杨双春. 硅酸盐通报, 2013, 32(4), 668. 6 Qi Y, Chen C X, Liu Y W, et al. China Non-metallic Minerals Industry, 2021(2), 65 (in Chinese). 齐颖, 陈从喜, 刘雨薇, 等. 中国非金属矿工业导刊, 2021(2), 65. 7 Zong P X. China Non-metallic Minerals Industry, 2014(1), 1 (in Chinese). 宗培新. 中国非金属矿工业导刊, 2014(1), 1. 8 Zhu X Y. Petrological characteristics and geochemistry and genesis of the black talc deposit in Guangfeng County, Jiangxi Province, Master's Thesis, China University of Geosciences, Beijing, China, 2020 (in Chinese). 朱馨怡. 江西广丰黑滑石矿床岩石学、地球化学特征及成因探讨, 硕士学位论文, 中国地质大学(北京), 2020. 9 Li C X, Mineralogy of black talc in Guangfeng County, Jiangxi Province, Ph. D. Thesis, Nanjing University, China, 2016 (in Chinese). 李成祥. 江西广丰黑滑石矿物学研究, 博士学位论文, 南京大学. 2016. 10 Wu J Q, Wen Z H, Li J X. China Non-metallic Minerals Industry, 2008(69), 12 (in Chinese). 吴基球, 文忠和, 李竟先. 中国非金属矿工业导刊, 2008(69), 12. 11 Aglietti E F. Applied Clay Science, 1994, 9, 139. 12 Cavajda V, Uhlik P, Derkowski A, et al. Clays and Clay Minerals, 2015, 63(4), 3l1. 13 Rayner J H, Brown G. Clays and Clay Minerals, 1973, 21, 103. 14 Schumann D, Hartman H, Eberl D D, et al. Clays and Clay Minerals, 2013, 6l(4), 342. 15 Vladimír C, Peter U, Arkadiusz D, et al. Clays and Clay Minerals, 2015, 63(4), 311 16 Li C X, Cheng R. American Mineralogist, 2016, 101(7), 1668. 17 Fraichard L. Nanotalcs fonctionnalis vers de nouveaux composites conducteurs. Ph. D. Thesis, University de Toulouse, FRA, 2012. 18 John W, Gruner. Zeitschrift für Kristallographie-Crystalline Materials, 2014, 99, 264. 19 Lei H L, Jiang S Y , Sun Y, et al. Mineral Deposits, 2012, 31(2), 241 (in Chinese). 雷焕玲, 蒋少涌, 孙岩, 等. 矿床地质, 2012, 31(2), 241. 20 Zhang L X, Ouyang Q S, Wu Z H. Resource Information and Enginee-ring, 2019, 34(6), 17 (in Chinese). 张连湘, 欧阳淇生, 巫志豪. 资源信息与工程, 2019, 34(6), 17. 21 Wang Y, Hu B Q, Li M G, et al. Conservation and Utilization of Mineral Resources, 2020, 40(6), 117 (in Chinese). 王运, 胡宝群, 李满根, 等. 矿产保护与利用, 2020, 40(6), 117. 22 Zhang L X, Zheng X, Ouyang Q S. Modern Mining, 2016, 32(5), 127 (in Chinese). 张连湘, 郑绪, 欧阳淇生. 现代矿业, 2016, 32(5), 127. 23 Wang Xianguang. Jiangxi Province geological exploration fund prospecting major breakthrough and scientific and technological innovation, Jiangxi Science and Technology Press, China, 2020, pp. 456(in Chinese). 王先广. 江西省地质勘查基金找矿重大突破与科技创新, 江西科学技术出社, 2020, pp. 456. 24 Lei H L, Jiang S Y, Sun Y, et al. Acta Mineralogica Sinica, 2011, 31(S1), 601(in Chinese). 雷焕玲, 蒋少涌, 孙岩, 等. 矿物学报, 2011, 31(S1), 601. 25 Chen Y M. Hunan Geology, 1992(1), 37 (in Chinese). 陈永明. 湖南地质, 1992(1), 37. 26 Bao Z X, Wang D S, Bao J M. Non-Metallic Minerals Industry, 2001(1), 38 (in Chinese). 鲍正湘, 王德生, 包觉敏. 中国非金属矿工业导刊, 2001(1), 38. 27 Bao Z X, Wan R J, Bao J M. Non-Metallic Mines, 2002(5), 53 (in Chinese). 鲍正湘, 万榕江, 包觉敏. 非金属矿, 2002(5), 53. 28 Xiao C H. JiangXi Geology, 1996(4), 304 (in Chinese). 肖承煌. 江西地质, 1996(4), 304. 29 Liu S D, Xiao K M, Zhou H J. China Non-metallic Minerals Industry, 1992(72), 27 (in Chinese). 刘盛鼎, 肖坤谟, 周洪健. 建材地质, 1992(72), 27. 30 Yang Y X, Deng C H. China Non-metallic Minerals Industry, 1991(4), 1 (in Chinese). 杨雅秀, 邓长虹. 建材地质, 1991(4), 1. 31 Tong H Y. China Non-metallic Minerals Industry, 1994(3), 30 (in Chinese). 童银洪. 建材地质. 1994(3), 30. 32 Li W L. Construction Materials Decoration, 2020(11), 221 (in Chinese). 李文林. 建材与装饰, 2020(11), 221. 33 Chen X B. China Steel Focus, 2019(15), 97 (in Chinese). 陈向波. 冶金管理, 2019(15), 97. 34 Li C X, Wang R C, Lu X C, et al. Applied Clay Science, 2013, 74, 37. 35 Wang R C, Li C X, Lu X C, et al. Minerals, 2013, 33(S1), 101. 36 Yao Z, Wu D, Heng J Y. Applied Clay Science, 2017, 141, 212. 37 Dellisanti F, Valdrè G, Mondonico M. Applied Clay Science, 2009, 42(3), 398. 38 Xu F F, Li J H, Wang Y C. Non-Metallic Mines, 2010, 33(6), 15 (in Chinese). 许芳芳, 李金洪, 王宇才. 非金属矿, 2010, 33(6), 15. 39 Chen Y, Lian X, Zheng S. Procedia Engineering, 2015, 102, 379. 40 Chen Y R, Li Z Y, Wang Z C, et al, Non-Metallic Mines, 2014, 37(5), 1 (in Chinese). 陈彦如, 李朝阳, 王泽朝, 等. 非金属矿, 2014, 37(5), 1. 41 Guo W H, Wang M H, Foshan Ceramics, 2014(5), 14 (in Chinese). 郭文华, 王明华. 佛山陶瓷, 2014(5), 14. 42 Chen Z G, Di S M, Zhu Q. Non-Metallic Mines, 1993(6), 6 (in Chinese). 陈正国, 邸素梅, 祝强. 非金属矿, 1993(6), 6. 43 Li Q, Wang M H. Foshan Ceramics, 2015, 25(1), 11 (in Chinese). 李济, 王明华. 佛山陶瓷, 2015, 25(1), 11. 44 Tian H, China Non-metallic Minerals Industry, 1991(5), 31(in Chinese). 田红. 建材地质, 1991(5), 31. 45 Song H B. China Non-metallic Minerals Industry, 2001(4), 19 (in Chinese). 宋海兵. 中国非金属矿工业导刊, 2001(4), 19. 46 Guo W H, Wang M H, Li J. Foshan Ceramics, 2012, 22(8), 9 (in Chinese). 郭文华, 王明华, 李济. 佛山陶瓷, 2012, 22(8), 9. 47 Wang M H, Li G, Li Q, Ceramics, 2012(9), 21 (in Chinese). 王明华, 李钢, 李济. 陶瓷, 2012(9), 21. 48 Ding S D, Dong Y M, Chen J J, et al. Cement Engineering, 2013(5), 9 (in Chinese). 丁苏东, 董益名, 陈晶晶, 等. 水泥工程, 2013(5), 9. 49 Qiu L L, Zhang P P, Chen X G, et al, Bulletin of the Chinese Ceramic Society, 2017, 36(6), 1811. 裘林莉, 张平萍, 陈雪刚, 等. 硅酸盐通报, 2017, 36(6), 1811 (in Chinese). 50 Fiorentino B, Fulchiron R, Bounor-Legaré V, et al. Applied Clay Science, 2015, 109-110(10), 107. 51 Di H W, Song B X. China Non-metallic Minerals Industry, 2010(3), 9 (in Chinese). 狄宏伟, 宋宝祥. 中国非金属矿工业导刊, 2010(3), 9. 52 Ye J, Li H M. Non-Metallic Mines, 2004, 27(1), 40 (in Chinese). 叶菁, 李宏敏. 非金属矿, 2004, 27(1), 40. 53 Wu H Y. Ceramic Studies, 1992(2), 70 (in Chinese). 吴汉阳. 陶瓷研究, 1992(2), 70. 54 Xue Y H, Guo T T, Xue Z. Multipurpose Utilization of Mineral Resources, 2011(6), 34 (in Chinese). 薛彦辉, 郭婷婷, 薛真. 矿产综合利用, 2011(6), 34. 55 Xiong L . Preliminary study on porcelain sanitary ceramics of coal gangue-black talc-bauxite with low expansion and high infrared ability. Master's Thesis, Jing De Zhen Ceramic University, China, 2013 (in Chinese). 熊里. 煤矸石-黑滑石-铝矾土制备低膨胀高红外瓷质卫生陶瓷的初步研究. 硕士学位论文, 景德镇陶瓷学院, 2013. 56 Liu B Y, Wang M Y, Fang Q S. China Non-metallic Minerals Industry, 1999(11), 55 (in Chinese). 刘伯元, 王明洋, 方庆生. 中国非金属矿工业导刊, 1999(11), 55. 57 Meli G, Jouffret F, Kochesfahani S. Kgk-Rubberpoint, 2009, 62, 657. 58 Xu Z S. Study on black talc reinforcing chloroprene rubber and its mechanism. Master's Thesis, Hebei University of Technology, China, 2019 (in Chinese). 许子帅. 黑滑石补强氯丁橡胶及其机理的研究. 硕士学位论文, 河北工业大学, 2019. 59 Liang J Z, Yang Q Q. Joumal of Reinforced Plastics and Composites, 2008, 28(3), 295. 60 Hazwani D H, Ahmad F, Uliah S, et al. Applied Clay Science, 2017, 146, 350. 61 Lin C, Chang F, Perng Y, et al. Advances in Materials Science and Engineering, 2016, l, 4863024. 62 Qin W L. Synthesis of composites based on black talc and their applications as functional materials. Ph. D. Thesis, Zhe Jiang University, China, 2018 (in Chinese). 秦文莉. 基于黑滑石的复合材料制备及其在功能材料领域的应用研究. 博士学位论文, 浙江大学, 2018. 63 Abou-Gamra Z M, Ahmed M A. Journal of Photochemistry and Photobio-logy Biology, 2016, 160, 134. 64 Damardji B, Khalaf H, Duclaux L, et al. Applied Clay Science, 2009, 44(3), 201. 65 Almeida M F, Bellata C R, MounteerA H, et al. Applied Surface Science, 2015, 357, 1765. 66 Shuai H, Wang Y, Wang J, et al. Materials. 2021, 14(20), 6038. 67 Mariana M, Feiteiro J, Verde I, et al. Environment International, 2016, 94, 758. 68 Adeel M, Song X, Wang Y, et al. Environment International, 2017, 99, 107. 69 Yang Y, Wang P. Journal of Hazardous Materials, 2009, 168(1), 238. 70 Qin W L, Xia T, Ye Y, et al. Royal Society Open Science. 2018, 5(2), 1. 71 Chen J, Wei X, Liu Y, et al. Science of the Total Environment, 2016, 565, 240. 72 Chen D Y, Bai Q, Ma T T, et al. Chemical Engineering Journal, 2022, 435, 134916. 73 Wang Y T, Guan Y D, Li Y Z, et al. Process Safety and Environmental Protection, 2021, 149, 123. 74 Wang P P , Yuan Q X, et al. Chemical Engineering Journal, 2021, 410, 128327. 75 Peng S M, Wei S G, Shuai H. Journal of Beijing Polytechnic College, 2022, 21(2), 39 (in Chinese). 彭淑梅, 魏树国, 帅欢. 北京工业职业技术学院学报, 2022, 21(2), 39. 76 Wu X W, Zhao H, Zhang Z J, et al. Journal of Ceramics, 2017, 38(4), 476(in Chinese). 吴小文, 赵航, 张之介, 等. 陶瓷学报, 2017, 38(4), 476. 77 Fan P, Liu H, Liao L B, et al. Electrochim Acta, 2018, 289, 407. 78 Bahiraei H, Ong C K. Ceramics Intemational, 2017, 43(6), 4780. 79 Gabal M, A1-Juaid A, A1-Rashed S M, et al. Journal of Magnetism and Magnetic Materials, 2017, 426, 670. 80 Zhou J, He J, Li G, et al. The Journal of Physical Chemistry C, 2010, 114(17), 7611. 81 Drmota A, Koselj J, Drofenik M, et al. Journal of Magnetism and Magnetic Materials, 2012, 324(6), 1225. 82 ChenX, Ye Y, Chen J. Journalof Inorganic Materials, 2011, 26(5), 449. 83 Wu Z P, Li M M, Hu Y Y, et al. Scripta Materialia, 201l, 64(9), 809. 84 蒋里军. 中国专利, CN1168795, 1997 85 Ye Y, Zhou Y H, Xia M S, et, al. Journal of Inorganic Materials. 2003, 18(3), 569 (in Chinese). 叶瑛, 周玉航, 夏枚生, 等. 无机材料学报, 2003, 18(3), 569. 86 Qiu L L, Zhang P P, Chen X G, et al. Bulletin of the Chinese Ceramic Society, 2017, 36(6), 1811 (in Chinese). 裘林莉, 张平萍, 陈雪刚, 等. 硅酸盐通报, 2017, 36(6), 1811. 87 许涛亮, 张娅, 刘燕, 等. 中国专利, CN109851320A, 2019. 88 刘一军, 杨元东, 杨倩. 中国专利, CN111517649B, 2021. 89 官文刚. 中国专利, CN111467264A, 2020. |
|
|
|