Steklo i Keramika (Glass and Ceramics). Monthly scientific, technical and industrial journal

 

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Application of Carbon Fiber Waste for Reinforcement of Alkaline-Activated Blast Furnace Slag Composites

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Autors: Klimenko N. N., Nistratov A. V., Kiseleva K. I., Delitsyn L. M., Sigaev V. N.
  • Continuous numbering: 1115
  • Pages: 28-31
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The prospects of using recycled carbon fiber extracted from aviation carbon fiber waste for reinforcing composite materials based on blast-furnace slag activated with sodium silicate solution are evaluated. The influence of the concentration and length of the secondary carbon fiber on the structure, physical and mechanical properties and the nature of the destruction of dispersed-reinforced composites has been investigated.
Adesina A. Performance of fiber reinforced alkali-activated composites? A review // Materialia. 2020. V. 12. August. P. 100782. URL: https://doi.org/10.1016/ j.mtla.2020.100782 Hassan A., Arif M., Shariq M. A review of properties and behavior of reinforced geopolymer concrete structural elements? A clean technology option for sustainable development // J. Clean. Prod. 2020. V. 245. P. 118762. URL: https://doi.org/10.1016/j.jclepro.2019.118762 Vilaplana JL, Baeza FJ, Galao O. et al. Mechanical properties of alkali activated blast furnace slag pastes reinforced with carbon fibers // Constr. Build. Mater. 2016. V. 116. P. 63? 71. Yurt? An experimental study on fracture energy of alkali activated slag composites incorporated different fibers // J. Build. Eng. 2020. V. 32. January. P. 101519. URL: https://doi.org/10.1016/j.jobe.2020.101519 Shaikh FUA Review of mechanical properties of short fiber reinforced geopolymer composites // Constr. Build. Mater. 2013. V. 43. P. 37? 49. Luna-Galiano Y., Leiva C., Villegas R. et al. Carbon fiber waste incorporation in blast furnace slag geopolymer-composites // Mater. Lett. 2018. V. 233. P. 1? 3. Malakhovsky SS, Mishkin SI Main trends in the production and use of secondary carbon fibers (review) // Tr. VIAM. 2019.? 9 (81). S. 73? 79. [Malakhovskiy SS, Mishkin SI The main trends of receiving and applications secondary carbon fibers (review) // Proc. VIAM. 2019. V. 9, No. 9.P. 73? 79. URL: https://doi.org/10.18577/2307-6046-2019-0-9-73-79] Nilakantan G., Nutt S. Reuse and upcycling of aerospace prepreg scrap and waste // Reinf. Plast. 2015. V. 59, No. 1.P. 44? 51. Nistratov AV, Long VK, Klushin VN et al. Thermographic study of carbon and organic plastic waste as a means of assessing the rational conditions of their destruction // Tr. VIAM. 2017. ? 11 (59). S. 98? 106. [Nistratov AV, Vu KL, Klushin VN et al. Thermo-graphic analysis of waste carbon- and organic plastics as way of evaluation of rational conditions of their destruction // Proc. VIAM. 2017. V. 11, No. 59. P. 98? 106. URL: https://doi.org/10.18577/2307-6046-2017-0-11-10-10] N. N. Klimenko, I. Yu. Kolokolchikov, N. Yu. Mikhailenko, etc. New building materials with increased strength based on metallurgical waste // Glass and ceramics. 2018.? 5.C. 44? 48. [Klimenko NN, Kolokolchikov I. Yu., Mikhailen-ko N. Yu. et al. New High-Strength Building Materials Based on Metallurgy Wastes // Glass Ceram. 2018. V. 75, No. 5? 6. P. 206? 210.]

Keywords

alkali-activated materials, granular blast-furnace slag, composite materials, dispersed reinforcement, secondary carbon fiber, strength

Use the reference below to cite the publication

Klimenko N. N., Nistratov A. V., Kiseleva K. I., Delitsyn L. M., Sigaev V. N. Application of Carbon Fiber Waste for Reinforcement of Alkaline-Activated Blast Furnace Slag Composites. Steklo i keramika. 2020:93(11):28-31. (in Russ). UDK 678.745
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Editor-in-chief

Lyudmila Vladimirovna Sokolova