[1] Mirsaev R. N., Akhmadulina I. I., Babkov V. V., Nedoseko I. V., Gaitova A. R., Kuzmin V. V. Gipsoshlakovyye kompozitsii izotkhodov promyshlennosti v stroitel’nykh tekhnologiyakh. (Gypsum slag compositions of industrial wastes in building technologies). Construction Materials 2010:7:4–6. (In Russian).
[2] Bishimbaev V. K., Zhekeev M. K., Dmitrievsky B. A., Zhekeev R. M. Ekologicheskiye aspekty elektrotermicheskoy pererabotki fosfatov. (Environmental aspects of electrothermal processing of phosphates). Chemical technology 2011:5:307–313. (In Russian).
[3] Dvorkin L. I., Dvorkin O. L., Mironenko A. V., Kundos M. G. Sul’fatno-shlakovyye vyazhushchiye povyshennoy prochnosti i dolgovechnosti. (Sulfate-slag binders with increased strength and durability). Dry construction mixtures 2011:3:36–38. (In Russian).
[4] Karpovich E. A., Vakal S. V., Zolotarev A. E. Otrabotka promyshlennogo varianta tekhnologii pererabotki fosfogipsa na gipsovoye vyazhushcheye. (Development of an industrial version of the technology for processing phosphogypsum into a gypsum binder). Mater. XVI international scientific Conference ‘Ecology and human health. Protection of air and water basins. Recycling’. Kharkiv: UKSTC Elektrostal 2008:2:234–238. (In Russian).
[8] Chernysheva N. V., Sverguzova S. V., Tarasova G. I. Polucheniye gipsovogo vyazhushchego iz fosfogipsa Tunisa. (Obtaining a gypsum binder from phosphogypsum of Tunisia). Building materials 2010:7:28–30. (In Russian).
[9] Tleuov A. S., Kulakhmet A. M., Tleuova S. T., Altybaev J. M., Arystanova S. D., Sagindikova N. T., Shapalov Sh. K., Isaeva D. A. Issledovaniye protsessa kompleksnoy kislotno-termicheskoy pererabotki otkhodov fosfornogo proizvodstva. (Study of the process of complex acid-thermal processing of phosphorus production wastes). Bulletin of the National Academy of Sciences of the Republic of Kazakhstan. Series of chemistry and technology 2017:421:101–108. (In Russian).
[10] Turgumbayeva Kh. Kh., Beisekova T. I., Lapshina I. Z., Shanbayev M. Zh., Kerimbayeva I. N. Research report: Utilizatsiya otkhodov fosfornoy promyshlennosti s polucheniyem mnogotselevyye produktov dlya stroitel’noy industrii. (Disposal of waste from the phosphorus industry to obtain multipurpose products for the construction industry). 2015–2017. (In Russian).
[15] Kurbatov I. M. Sovremennyye metody khimicheskogo analiza stroitel’nykh materialov. (Modern methods of chemical analysis of building materials). Stroyizdat 1972. (In Russian).
[16] Turgumbaeva Kh. Kh., Lapshina I. Z., Beisekova T. I., Abdualiyeva Zh. U., Shanbaev M. Zh. Utilizatsiya tekhnogennykh otkhodov fosfornoy promyshlennosti. (Utilization of industrial waste produced by the phosphoric industry). Int. J. Chem. Sci 2016:14(4):2891–2910. (In Russian).
[17] Dvorkin L. I. Stroitel’nyye materialy iz otkhodov promyshlennosti. Construction materials from industrial waste. Rostov: Phoenix 2007. (In Russian).
[19] Kaptyushina A. G., Bondarenko G. V. Proyektirovaniye sostava kompozitsionnogo bezobzhigovogo vyazhushchego na baze tekhnogennykh otkhodov Cherepovetskogo promyshlennogo uzla i issledovaniye yego tekhnicheskikh kharakteristik. (Designing the composition of a composite non-fired binder based on industrial waste from the Cherepovets industrial hub and a study of its technical characteristics). Chemical Industry Today 2011:11:37–41. (In Russian).