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《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

Issue:

2023年第05期

Page:

1110-1117

Research Field:

庆贺汤中立院士从事地质工作七十周年专辑

Publishing date:

Info

Title:

New Genetic Classification of Kaolin Deposits in China

Author(s):

CHENG Hong-fei¹;  GAO Yu-long¹;  LIANG Shao-xian^2*;  LIU Qin-fu³

(1. School of Earth Science and Resources, Chang'an University, Xi'an 710054, Shaanxi, China; 2. College of Geology and Environment, Xi'an University of Science and Technology, Xi'an 710054, Shaanxi, China; 3. School of Geoscience and Surveying Engineering, China University of Mining and Technology, Beijing 100083, China)

Keywords:

kaolin(rock);  genetic classification;  parent rock type;  diagenesis;  deposit type;  coal-bearing strata kaolinite;  knag soil deposit;  weathered elurial subtype

PACS:

P619.23⁺2

DOI:

10.19814/j.jese.2023.08038

Abstract:

With the adjustment of China's economic structure and industrial transformation and upgrading, kaolin, included in 15 kinds of minerals, has been suggested to be strategic non-metallic minerals in China. Therefore, it is urgent to study the types and causes of kaolin mineral resources. A new genetic classification scheme of kaolin deposits in China was proposed based on the research results on the genesis of kaolin(rock)deposits and the compound naming principle of parent rock type(or source of ore-forming original material)+ formation + ore type. Kaolin deposits can be divided into 4 genetic types, 8 genetic subtypes and 12 deposit types. On the basis of the existing 6 ore deposit types, 6 new types of ore deposits are proposed, including 3 subtypes of weathered eluvial kaolin ore deposits, which are the weathered eluvial subtype knag soil deposits, rich long sand(rock)weathered eluvial and molding sand quality kaolin ore deposit, and kaolin rocks weathered eluvial subtype aluminum water stone-halloysite-kaolin ore deposit. The origin of hard clay, soft clay and semi-soft clay in refractory clay deposits is attributed to terrigenous clastic and colloidal chemical sedimentary diagenetic subtype kaolin(soil)deposits. For the Carboniferous-Permian coal-bearing rock series in North China, part of coal seam gangue and roof and floor kaolin rocks are formed by descending pyroclastic sedimentary diagenesis. This type of kaolin rocks is unique to China and is classified as descending pyroclastic sedimentary diagenesis subtype. In addition, the variable kaolin subtype deposit is a special type of deposit, and the(thermal)fluid alteration subtype sandstone kaolin deposit is rare, but it is a kaolin deposit with potential economic value.

References:

[1] 吴宇杰,陈从喜,袁 峰.中国高岭土矿床时空分布规律[J].地球学报,2021,42(5):628-640.
WU Yu-jie,CHEN Cong-xi,YUAN Feng.Temporal-spatial Distribution Regularities of Kaolin Deposits in China[J].Acta Geoscientia Sinica,2021,42(5):628-640.
[2] 郑 直,吕达人,冯宝华,等.中国主要高岭土矿床[M].北京:北京科学技术出版社,1987.
ZHENG Zhi,LYU Da-ren,FENG Bao-hua,et al.Major Kaolin Deposits in China[M].Beijing:Beijing Science and Technology Press,1987.
[3] 郑 直,吕达人,冯墨林.中国高岭土矿床[M]∥《中国矿床》编委会.中国矿床(下册).北京:地质出版社,1994.
ZHENG Zhi,LYU Da-ren,FENG Mo-lin.Kaolin Deposits in China[M]∥Editorial Committee of Mineral Deposits in China.Mineral Deposits in China(Part Ⅲ).Beijing:Geological Publishing House,1994.
[4] 任磊夫.黏土矿物和黏土岩[M].北京:地质出版社,1992.
REN Lei-fu.Clay Minerals and Clay Rocks[M].Beijing:Geological Publishing House,1992.
[5] 陶维屏,杨雅秀,陈欣强.中国高岭土矿床成因类型[C]∥国际交流会议组委会.国际交流学术论文集4:物探与化探.北京:地质出版社,1985:299-309.
TAO Wei-ping,YANG Ya-xiu,CHEN Xin-qiang.Genetic Types of Kaolin Deposits in China[C]∥Committee of International Exchange Conference.International Exchange Proceedings:4,Geophysical and Geochemical Exploration.Beijing:Geological Publishing House,1985:299-309.
[6] 陶维屏,孙 祁,杨雅秀,等.中国高岭土矿床地质学[M].上海:上海科学技术文献出版社,1984.
TAO Wei-ping,SUN Qi,YANG Ya-xiu,et al.Geology of Kaolin Deposits in China[M].Shanghai:Shanghai Scientific and Technical Literature Press,1984.
[7] 陈世悦,李 晋,陈扬杰,等.中国北方某些地区煤系中软质黏土矿床的成因[J].中国矿业大学学报,1990,19(3):85-91.
CHEN Shi-yue,LI Jin,CHEN Yang-jie,et al.The Origin of Soft-clay Deposits in Coal-bearing Strata in Some Areas of Northern China[J].Journal of China University of Mining & Technology,1990,19(3):85-91.
[8] 周国平,林毓川.沉积-风化型高岭土矿床及其特征[J].矿床地质,1991,10(3):272-282.
ZHOU Guo-ping,LIN Yu-chuan.Sedimentary-weathering Type Kaolin Deposits and Their Characteristics[J].Mineral Deposits,1991,10(3):272-282.
[9] 王惠民.大磁窑高岭石-水铝英石黏土矿床地质特征及成因的初步探讨[J].山西地质科技,1984(3):5-17.
WANG Hui-min.Preliminary Study on Geological Characteristics and Genesis of Daciyao Kaolinite-hyd-roaluminite Clay Deposit[J].Shanxi Geological Scien-ce and Technology,1984(3):5-17.
[10] 庄志学.准格尔旗东部清水河一带高岭石矿层[C]∥《河北陶瓷》编辑部.华北陶瓷原料文集.唐山:唐山工业职业技术学院,1985:29-32.
ZHUANG Zhi-xue.Kaolinite Deposit in Qingshuihe Area,East of Junge Banner[C]∥Editorial Department of Hebei Ceramics.North China Ceramic Raw Materials Collection.Tangshan:Tangshan Polytechnic College,1985:29-32.
[11] 陈扬杰.华亭安口高岭土的成因探讨[J].岩石学报,1993,9(增):207-213.
CHEN Yang-jie.Discussion on the Genesis of Kaolin in Ankou,Huating[J].Acta Petrologica Sinica,1993,9(S):207-213.
[12] 周义平.煤系黏土岩夹矸译文集[M].北京:地质出版社,1989.
ZHOU Yi-ping.Collection of Coal Measures Clay Ro-ck Waste[M].Beijing:Geological Publishing House,1989.
[13] 周义平,BURGER K,汤大忠.中国西南地区晚二叠世含煤岩系中黏土岩夹矸(Tonsteins)研究新进展[J].云南地质,1988,7(3):213-227.
ZHOU Yi-ping,BURGER K,TANG Da-zhong.Recent Progress in the Study of Clay Rock Tonsteins in Late Permian Coal-bearing Rock Series in Southwest China[J].Yunnan Geology,1988,7(3):213-227.
[14] 冯宝华.我国北方石炭—二叠纪火山灰沉积水解改造而成的高岭岩[J].沉积学报,1989,7(1):101-108.
FENG Bao-hua.Carboniferous-Permian Tonsteins For-med by Hydrolytic Reformation of Volcanic Ash Sediments in Northern China[J].Acta Sedimentologica Sinica,1989,7(1):101-108.
[15] 梁绍暹,王水利,姚改焕.华北聚煤区火山灰蚀变粘土岩夹矸的研究[J].中国煤田地质,1995,7(1):59-63.
LIANG Shao-xian,WANG Shui-li,YAO Gai-huan.Study of Synsedimentary Volcanic-ash-derived Clayrock Bands in Carboniferous-Permian Coal-bearing Formation of North China[J].Coal Geology of China,1995,7(1):59-63.
[16] 林正欣.耐火黏土[M]∥陶维屏.中国工业矿物和岩石(上册).北京:地质出版社,1987:218-246.
LIN Zheng-xin.Fireclay[M]∥TAO Wei-ping.Industrial Minerals and Rocks in China(Part Ⅰ).Beijing:Geological Publishing House,1987:218-246.
[17] 扬晓杰,刘钦甫.淮南煤田颖凤区二叠系下石盒子组高岭岩矿床成矿机理的探讨[J].建材地质,1995(1):15-21.
YANG Xiao-jie,LIU Qin-fu.Discussion on Metallogenic Mechanism of Kaolinite Deposit of Permian Lower Shihezi Formation in Yingfeng District,Huai-nan Coalfield[J].Building Materials Geology,1995(1):15-21.
[18] 马艳萍,刘池阳.盆地东北部天然气耗散与砂岩漂白现象[M]∥刘池阳,吴柏林.油气煤铀同盆共存成藏(矿)机理及富集分布规律(上册).北京:科学出版社,2016:465-499.
MA Yan-ping,LIU Chi-yang.Natural Gas Dissipation and Sandstone Bleaching in Northeast Basin[M]∥LIU Chi-yang,WU Bo-lin.Mechanism of Accumulation and Distribution of Hydrocarbon,Coal and Uranium Co-existing with Basin(Volume 1).Beijing:Science Press,2016:465-499.
[19] 张 龙,刘池阳,雷开宇,等.鄂尔多斯盆地东北部侏罗纪延安组漂白砂岩成因及古风化壳形成环境探讨[J].地质学报,2017,91(6):1345-1359.
ZHANG Long,LIU Chi-yang,LEI Kai-yu,et al.Whi-te Bleached Sandstone Genesis and Paleo-weathered Crust Forming Environment of the Jurassic Yanan Formation in the Northeastern Ordos Basin[J].Acta Geologica Sinica,2017,91(6):1345-1359.
[20] 曹 剑,张义杰,胡文瑄,等.油气储层自生高岭石发育特点及对物性的影响[J].矿物学报,2005,25(4):367-373.
CAO Jian,ZHANG Yi-jie,HU Wen-xuan,et al.Developing Characteristics of Kaolinite in Central Junggar Basin and Their Effect on the Reservoir Quality[J].Acta Mineralogica Sinica,2005,25(4):367-373.
[21] 伏美燕,张哨楠,胡 伟.碳酸盐岩中迪开石的分布特征及其成因[J].沉积学报,2012,30(2):310-317.
FU Mei-yan,ZHANG Shao-nan,HU Wei.The Distribution and Origin of Dickite in Carbonate[J].Acta Se-dimentologica Sinica,2012,30(2):310-317.
[22] 赵杏媛,王经科,王晓方.陕甘宁盆地奥陶系风化壳粘土矿物[J].天然气地球科学,1995,6(2):9-13.
ZHAO Xing-yuan,WANG Jing-ke,WANG Xiao-fang.Weathered Crustal Clay Minerals of the Ordovician of the Ordos Basin[J].Natural Gas Geoscience,1995,6(2):9-13.
[23] 李焕英,张发德,成永芹.喜鹊岭砂质高岭土矿床特征及其利用方向[J].青海地质,1998(1):55-59.
LI Huan-ying,ZHANG Fa-de,CHENG Yong-qin.Geological Features of Xiquelin Sandy Kaolin Deposit and Its Utilization[J].Qinghai Geology,1998(1):55-59.
[24] 刘长龄,刘钦甫,李生才.广西南宁地区所产世界级球粘土的矿床特征与合理开发利用[J].中国地质,2004,31(2):199-205.
LIU Chang-ling,LIU Qin-fu,LI Sheng-cai.Characte-ristics and Rational Development and Utilization of a World-class Ball Clay Deposit in the Nanning Area,Guangxi[J].Geology in China,2004,31(2):199-205.
[25] 刘长龄,陈新邦.东北地区球黏土的地质特征和成矿条件[J].地质找矿论丛,2004,19(4):243-251.
LIU Chang-ling,CHEN Xin-bang.Geological Feature and Ore-forming Condition for Ball Clay in the Northeast China[J].Contributions to Geology and Mineral Resources Research,2004,19(4):243-251.

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Last Update: 2023-10-15