A scientific approach to obtaining new combined fiber-powder non-woven materials containing various grades of thermally expanded graphite as the powder sorbent is formulated. The influence of the conditions for obtaining thermally expanded graphite on its structure, sorption characteristics and sorption efficiency of oil products is shown.
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E. K. Savelyeva, “Development of highly effective composite polymer sorbents with increased strength” [in Russian], dissertation, MSUDT, Moscow (2009) 166 p.
Yu. N. Alexandrova, “Development of methods for regulating the structure and properties of fiber nonwoven materials” [in Russian], dissertation, MSUDT, Moscow (2008) 174 p.
E. S. Bokova, “Fiber porous composite materials using bicomponent fibers” [in Russian], MSUDT, Moscow (2011) 175 p.
E. S. Bokova and G. M. Kovalenko, “Fiber porous polymer composite materials and their role in environmental protection” [in Russian], A. N. Kosygin RSU, Moscow (2018) 218 p.
A. V. Dedov, V. G. Nazarov, and S. V. Babushkin, “The effect of polyester blend fibers on the physicomechanical properties of nonwoven materials” [in Russian], abstracts Int. Conf. on Chemical Fibers “Khimvolokna – 2000,” JSC Tver’khimvolokno, Tver, Russian Academy of Engineering (RAE) (2000) 150 p.
E. S. Bokova, G. M. Kovalenko, et al., Fibre Chemistry, 46, No. 4, 312-316 (2015).
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Translated from Khimicheskie Volokna, No. 4, pp. 41 – 44, July – August, 2019.
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Bokova, E.S., Kovalenko, G.M., Dedov, A.V. et al. Non-Woven Fiber-Powder Sorbents for Oil Spill Cleanup. Fibre Chem 51, 254–258 (2019). https://doi.org/10.1007/s10692-020-10089-7
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DOI: https://doi.org/10.1007/s10692-020-10089-7