English
Русский 4-21 p.
The article discusses the technology of production, the problems of the development of chrysotile and chrysotile cement industries in the CIS countries. The article provides information on the composition and properties of natural chrysotile fibers, data on the quality of raw materials of cement and chrysotile fibers supplied to chrysotile cement enterprises, characteristics of suspension with them, semi-finished product and properties of solidified chrysotile cement products.
The purpose of the research is to study the influence of external and internal factors, risks on the development of the chrysotile-asbestos industry, on the sales market. Identification of the dependence of the influence of the pa-rameters of chrysotile fiber and cement on the quality of finished chrysotile cement products.
Analysis of scientific literature, analysis of current production, identification and monitoring of the quality of raw materials and finished products, comparative analysis of production and consumption markets.
The purpose of the research is to study the influence of external and internal factors, risks on the development of the chrysotile-asbestos industry, on the sales market. Identification of the dependence of the influence of the pa-rameters of chrysotile fiber and cement on the quality of finished chrysotile cement products.
Analysis of scientific literature, analysis of current production, identification and monitoring of the quality of raw materials and finished products, comparative analysis of production and consumption markets.
1. Komarov Yu.T. 100th anniversary of the Bryansk asbestos-cement plant. Construction Materials. 2008. No. 9. P. 34 – 35.
2. Whittaker E.D.W. Structure and properties of asbestos. Handbook on the structure of textile fibers: natural, regenerated, inorganic and special fibers. 2009. P. 425 – 449.
3. Shkarednaya S.A., Kaskevich T.M. Asbestos-containing products and building materials. Mining and Geo-logical Journal. 2005. No. 2. P. 37 – 39.
4. Robert L. Virta. Asbestos: geology, mineralogy, mining and use. Geological Service. 2022. P. 28.
5. Punenkov S.E., Kozlov Yu.S. Chrysotile-asbestos and resource saving in the chrysotile-asbestos industry. Mining Journal of Kazakhstan. 2022. No. 1. P. 5 – 10.
6. 2022 Mineral Commodity Summary. USGS. Geological Survey. 2022. P. 204.
7. Kaganovsky O.S., Gradoboev O.V., Plugin A.A. Highly effective composite materials based on mineral and synthetic fibers: problems in the production of chrysotile cement. Collection of articles. scientific tr. Ukrainian State University of Railway Transport. Kharkov: Ukr-DUZT. 2013. Issue. 138. P. 50 – 47.
8. Punenkov S.E. Current state and prospects for the development of the chrysotile-asbestos industry in Brazil. Construction Materials. 2011. No. 5. P. 20 – 21.
9. Chesnokov V.S., Babich V.A. Chrysotile cement pressure pipes: practice of application in heating routes. Construction materials. 2008. No. 9. P. 13 – 15.
10. Obodovich O.M., Nedbaylo O.M., Chernishin O.G., Nedbaylo A.E. Increasing the degree of fluffiness of asbestos fibers using hydromechanical processing. Ceramics: science and life. 2021. No. 1 (50). P. 26 – 29.
11. Kukhta T.N. Increasing the durability of the polymer coating of asbestos-cement sheets using a water repel-lent. Construction Materials. 2010. No. 1. P. 58 – 60.
12. Uretskaya E.A., Kukhta T.N. Technological features of surface hydrophobization of asbestos-cement slate. Construction science and technology. 2008. No. 6 (21). P. 95 – 100.
2. Whittaker E.D.W. Structure and properties of asbestos. Handbook on the structure of textile fibers: natural, regenerated, inorganic and special fibers. 2009. P. 425 – 449.
3. Shkarednaya S.A., Kaskevich T.M. Asbestos-containing products and building materials. Mining and Geo-logical Journal. 2005. No. 2. P. 37 – 39.
4. Robert L. Virta. Asbestos: geology, mineralogy, mining and use. Geological Service. 2022. P. 28.
5. Punenkov S.E., Kozlov Yu.S. Chrysotile-asbestos and resource saving in the chrysotile-asbestos industry. Mining Journal of Kazakhstan. 2022. No. 1. P. 5 – 10.
6. 2022 Mineral Commodity Summary. USGS. Geological Survey. 2022. P. 204.
7. Kaganovsky O.S., Gradoboev O.V., Plugin A.A. Highly effective composite materials based on mineral and synthetic fibers: problems in the production of chrysotile cement. Collection of articles. scientific tr. Ukrainian State University of Railway Transport. Kharkov: Ukr-DUZT. 2013. Issue. 138. P. 50 – 47.
8. Punenkov S.E. Current state and prospects for the development of the chrysotile-asbestos industry in Brazil. Construction Materials. 2011. No. 5. P. 20 – 21.
9. Chesnokov V.S., Babich V.A. Chrysotile cement pressure pipes: practice of application in heating routes. Construction materials. 2008. No. 9. P. 13 – 15.
10. Obodovich O.M., Nedbaylo O.M., Chernishin O.G., Nedbaylo A.E. Increasing the degree of fluffiness of asbestos fibers using hydromechanical processing. Ceramics: science and life. 2021. No. 1 (50). P. 26 – 29.
11. Kukhta T.N. Increasing the durability of the polymer coating of asbestos-cement sheets using a water repel-lent. Construction Materials. 2010. No. 1. P. 58 – 60.
12. Uretskaya E.A., Kukhta T.N. Technological features of surface hydrophobization of asbestos-cement slate. Construction science and technology. 2008. No. 6 (21). P. 95 – 100.
Punenkov S.E. Composites materials based on natural chrysotile fibers. Chemical Bulletin. 2024. 7 (1). P. 4 – 21. https://doi.org/10.58224/2619-0575-2024-7-1-4-21