Effects of grinding and dehydration on kaolin in a steam jet mill
Steam jet milling was applied for the first time to ultra-fine grind the filter cake (moisture content 23.80%) produced by a kaolin concentrator. The material was dehydrated and dried simultaneously during grinding, and the final ground sample met the moisture content requirement for powder products...
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| Published in | Clay minerals Vol. 56; no. 1; pp. 75 - 84 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Middlesex
Mineralogical Society
01.03.2021
Cambridge University Press |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Steam jet milling was applied for the first time to ultra-fine grind the filter cake (moisture content 23.80%) produced by a kaolin concentrator. The material was dehydrated and dried simultaneously during grinding, and the final ground sample met the moisture content requirement for powder products of <2%. The particle size of the ground kaolin samples decreased and the particle-size distribution was more concentrated, indicating that the steam jet milling was more effective for kaolin processing than the conventional dry grinding process. In addition, steam jet milling can improve the whiteness and decrease the crystal order of the samples, thus improving the kaolin properties in follow-up applications. |
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| AbstractList | Steam jet milling was applied for the first time to ultra-fine grind the filter cake (moisture content 23.80%) produced by a kaolin concentrator. The material was dehydrated and dried simultaneously during grinding, and the final ground sample met the moisture content requirement for powder products of <2%. The particle size of the ground kaolin samples decreased and the particle-size distribution was more concentrated, indicating that the steam jet milling was more effective for kaolin processing than the conventional dry grinding process. In addition, steam jet milling can improve the whiteness and decrease the crystal order of the samples, thus improving the kaolin properties in follow-up applications. |
| Author | Chen Haiyan, Chen Haiyan Xiao Junhui, Xiao Junhui Leng Hao, Leng Hao Li Hong, Li Hong Wang Shuai, Wang Shuai Lu Juan, Lu Juan Wang Zhe, Wang Zhe |
| Author_xml | – sequence: 1 fullname: Wang Zhe, Wang Zhe – sequence: 2 fullname: Li Hong, Li Hong – sequence: 3 fullname: Chen Haiyan, Chen Haiyan – sequence: 4 fullname: Lu Juan, Lu Juan – sequence: 5 fullname: Leng Hao, Leng Hao – sequence: 6 fullname: Xiao Junhui, Xiao Junhui – sequence: 7 fullname: Wang Shuai, Wang Shuai |
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| SubjectTerms | beneficiation clastic sediments clay mineralogy clay minerals Comminution Compressed air Cost control Dehydration Dry grinding Economic geology effects Filter cake fine-grained materials grinding Grinding mills Kaolin kaolin deposits kaolinite Moisture content nonmetals Particle size Particle size distribution production properties sed rocks, sediments Sedimentary petrology sediments sheet silicates silicates Size distribution Steam jets Viscosity Water content |
| Title | Effects of grinding and dehydration on kaolin in a steam jet mill |
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