This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Kashchuk D. How to solve the problem of waste disposal. 2017. Available from https://biz.nv.ua/ukr/experts/jak-virishiti-problemu-utilizat siji-vidhodiv-2178636.htmlKashchukD.. 2017. Available from https://biz.nv.ua/ukr/experts/jak-virishiti-problemu-utilizatsiji-vidhodiv-2178636.htmlSearch in Google Scholar
Barinov EM. New methods of assessing the quality of asphalt concrete. Lviv: LISI; 1989. 55 p.BarinovEM.. Lviv: LISI; 1989. 55 p.Search in Google Scholar
Bazhenov YM. Concrete polymers. Moscow: Stroyizdat; 1983. 472 p.BazhenovYM.. Moscow: Stroyizdat; 1983. 472 p.Search in Google Scholar
Anisimov AV. Sulfur concrete. Stroitelna Gazeta. 1995;34:4–5.AnisimovAV.Sulfur concrete. . 1995;34:4–5.Search in Google Scholar
Kukharenko LV, Lichman NV, Nikitin IV. Special building materials for a special climatic region. Scientific and practical seminar “Geocryological and geoecological problems of construction in the regions of the Far North”. Norilsk: NII; 2001. p. 1–10.KukharenkoLVLichmanNVNikitinIV.. Norilsk: NII; 2001. p. 1–10.Search in Google Scholar
Orlovskyi YI. Concrete and products based on sulfur-containing waste. Concr RC. 1990;1:24–6.OrlovskyiYI.Concrete and products based on sulfur- containing waste. . 1990;1:24–6.Search in Google Scholar
Burdo A. The best foreign asphalt concrete. Motorways. 1997;3:60–1.BurdoA.The best foreign asphalt concrete. . 1997;3:60–1.Search in Google Scholar
Verenko VO. The effect of elemental sulfur on the properties of organic binders and concrete. News Univ. 1985;4:62–5.VerenkoVO.The effect of elemental sulfur on the properties of organic binders and concrete. . 1985;4:62–5.Search in Google Scholar
Kasymov IK, Shamenev FK, Orlovskyi YI. Study of toxicological safety of construction materials and products based on sulfur production. In: Development of technological recommendations for research and use of natural mineral resources in the production of construction materials and products. Kyiv: NIIBMI; 1988. p. 38–47.KasymovIKShamenevFKOrlovskyiYI.Study of toxicological safety of construction materials and products based on sulfur production. In: . Kyiv: NIIBMI; 1988. p. 38–47.Search in Google Scholar
Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. Features of the hot recycling method used to repair asphalt concrete pavements. Mater Sci Pol. 2022;40(2):181–95.BieliatynskyiAYangSPershakovVShaoMTaM.Features of the hot recycling method used to repair asphalt concrete pavements. . 2022;40(2):181–95.Search in Google Scholar
Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. The use of fiber made from fly ash from power plants in China in road and airfield construction. Constr Build Mater. 2022 Mar;323:1–10.BieliatynskyiAYangSPershakovVShaoMTaM.The use of fiber made from fly ash from power plants in China in road and airfield construction. . 2022Mar;323:1–10.Search in Google Scholar
Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. Study of carbon nano-modifier of fly ash in cement concrete mixtures of civil engineering. Sci Eng Compos Mater. 2022;29(1):227–41.BieliatynskyiAYangSPershakovVShaoMTaM.Study of carbon nano-modifier of fly ash in cement concrete mixtures of civil engineering. . 2022;29(1):227–41.Search in Google Scholar
Verenko VA, Lytov SI. Peculiarities of the deformation behavior of asphalt and bituminous concretes with the addition of sulfur. Motor Transp Roads. 1984;10:111– 115.VerenkoVALytovSI.Peculiarities of the deformation behavior of asphalt and bituminous concretes with the addition of sulfur. . 1984;10:111–115.Search in Google Scholar
Parfeniuk SA. Experience in the use of sulfur and sulfur-containing waste in the installation of asphalt concrete coatings. Automot Roads. 1987;2:16.ParfeniukSA.Experience in the use of sulfur and sulfur- containing waste in the installation of asphalt concrete coatings. . 1987;2:16.Search in Google Scholar
Gurariy EM. Influence of sulfur on structure formation in bitumen. Ways Improv Propert Asphalt Concr Other Bitum Mixt. 1971;44:137–145.GurariyEM.Influence of sulfur on structure formation in bitumen. . 1971;44:137–145.Search in Google Scholar
Kukolev GV. Chemistry of silicon and physical chemistry of silicates. Moscow: Vyshcha shkola; 1996.KukolevGV.. Moscow: Vyshcha shkola; 1996.Search in Google Scholar
Verenko VA. Experience and prospects of using composite materials in road construction. Minsk: BelNDINTI; 1990. p. 44.VerenkoVA.. Minsk: BelNDINTI; 1990. p. 44.Search in Google Scholar
Zavarzina MO. Ferrous cakes of nickel production in building materials. Build Mater. 1999;1: 48–49.ZavarzinaMO.Ferrous cakes of nickel production in building materials. . 1999;1:48–49.Search in Google Scholar
Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. Peculiarities of the use of the cold recycling method for the restoration of asphalt concrete pavements. Case Studies Constr Mater. 2022e;16(June 2022):e00872.BieliatynskyiAYangSPershakovVShaoMTaM.Peculiarities of the use of the cold recycling method for the restoration of asphalt concrete pavements. . 2022e;16(June 2022):e00872.Search in Google Scholar
Provisional instruction on the technology of sulfur concrete production. Uzhhorod: PPP “Patent”. 1987. 24 p.. Uzhhorod: PPP “Patent”. 1987. 24 p.Search in Google Scholar
Rosenthal DO, Kutsenko VI, Miroshnikov EP. Modification of bitumen with polymer additives. Build Mater. 1995;9:23–5.RosenthalDOKutsenkoVIMiroshnikovEP.Modification of bitumen with polymer additives. . 1995;9:23–5.Search in Google Scholar
Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. Investigation of the properties and technologies of epoxy asphalt concrete preparation with the addition of fiber from fly ash of thermal power plants. Eur J Environ Civil Eng. 2022;27(5):2070–87. DOI:10.1080/19648189.2022.2110160.BieliatynskyiAYangSPershakovVShaoMTaM.Investigation of the properties and technologies of epoxy asphalt concrete preparation with the addition of fiber from fly ash of thermal power plants. . 2022;27(5):2070–87. DOI:10.1080/19648189.2022.2110160.Open DOISearch in Google Scholar
Bieliatynskyi A, Yang S, Pershakov V, Shao M, Ta M. Study of crushed stone-mastic asphalt concrete using fiber from fly ash of thermal power plants. Case Stud Constr Mater. 2022:16.BieliatynskyiAYangSPershakovVShaoMTaM.Study of crushed stone-mastic asphalt concrete using fiber from fly ash of thermal power plants. . 2022:16.Search in Google Scholar
Jashi NA. Sulfur-containing composites based on high-strength cement and gypsum materials. (AutoAbstract). Saint Petersburg: Petersburg State University of Communications of Emperor Alexander I; 1996. p. 23.JashiNA.. Saint Petersburg: Petersburg State University of Communications of Emperor Alexander I; 1996. p. 23.Search in Google Scholar
Kaloeva IV. Methods of obtaining building materials from desulfurization waste. Moscow: VNIIST; 2017.KaloevaIV.. Moscow: VNIIST; 2017.Search in Google Scholar
Yatsevich IK, Verenko VA. Study of some ways of improving the rheological properties of coal tars. Motor Transp Roads. 1980;7:140–3.YatsevichIKVerenkoVA.Study of some ways of improving the rheological properties of coal tars. . 1980;7:140–3.Search in Google Scholar
Orlovskyi YI. Peculiarities of the production technology of polymer sulfur concrete based on sulfur binder. Concr RC. 1993;4:27–9.OrlovskyiYI.Peculiarities of the production technology of polymer sulfur concrete based on sulfur binder. . 1993;4:27–9.Search in Google Scholar
Kukharenko LV, Lichman NV, Nikitin IV. Sulfur concrete based on local raw materials and industrial waste. Build Mater. 2000;1:10–11.KukharenkoLVLichmanNVNikitinIV.Sulfur concrete based on local raw materials and industrial waste. . 2000;1:10–11.Search in Google Scholar
Yelfimov VA, Volgushev AN. Selection of sulfur concrete compositions. Build Mater. 1991;19:28–9.YelfimovVAVolgushevAN.Selection of sulfur concrete compositions. . 1991;19:28–9.Search in Google Scholar
Kuharenko LV, Zavarzyna MO. Iron cakes in the production of building materials. Constr Mater Ind. Ind Polym, Soft Roofing Heat-Insul Mater. 1995;2–3:22–4.KuharenkoLVZavarzynaMO.Iron cakes in the production of building materials. . 1995;2–3:22–4.Search in Google Scholar
Orlovskyi YI, Rashchynskyi VP, Marhal IV. Properties and prospects for the use of sulfur fiberglass concrete. News Univ Constr. 1994;9:43–47.OrlovskyiYIRashchynskyiVPMarhalIV.Properties and prospects for the use of sulfur fiberglass concrete. . 1994;9:43–47.Search in Google Scholar
Kamennov VO. Decorative sulfur concrete for restoration and repair and construction works. (AutoAbstract). Odesa: Odesa State Academy of Civil Engineering and Architecture; 1997. 15 p.KamennovVO.. Odesa: Odesa State Academy of Civil Engineering and Architecture; 1997. 15 p.Search in Google Scholar
Yang Sh, Bieliatynskyi A, Pershakov V, Shao M, Ta M. Asphalt concrete based on a polymer–bitumen binder nanomodified with carbon nanotubes for road and airfield construction. J Polym Eng. 2022;42(5):458–66.YangShBieliatynskyiAPershakovVShaoMTaM.Asphalt concrete based on a polymer–bitumen binder nanomodified with carbon nanotubes for road and airfield construction. . 2022;42(5):458–66.Search in Google Scholar
Radchenko BP, Danylko MB, Moshkovsky YP (2018). Patent “Method for producing sulfur asphalt concrete” Patent number: 123187 Available from https://uapatents.com/6-123187-sposib-otri maimya-sirkoasfaltobetonu.html#metkiRadchenkoBPDanylkoMBMoshkovskyYP(2018). Available from https://uapatents.com/6-123187-sposib-otri_maimya-sirkoasfaltobetonu.html#metkiSearch in Google Scholar