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Road construction relies on natural material exploitation and it is necessary to find new ways of reducing its negative environmental impact. Simultaneously, number of tyres placed on Croatian (and world) market is constantly growing and the need for waste tyres management will begin to increase due to the wear and tear of tyres in use at the moment. This paper presents a review of latest international and domestic researches on waste rubber application in road construction with special emphasize on Croatian researches within this topic. Preliminary results of ongoing research on waste rubber application in cement bound mixtures are also presented.
Czasopismo
Rocznik
Tom
Strony
499--512
Opis fizyczny
Bibliogr. 51 poz, il., tab.
Twórcy
autor
- Department for geotechnics, road construction and geodesy, Faculty of civil engineering and architecture Osijek, University of Osijek, Osijek
autor
- Department for geotechnics, road construction and geodesy, Faculty of civil engineering and architecture Osijek, University of Osijek, Osijek
autor
- Department for geotechnics, road construction and geodesy, Faculty of civil engineering and architecture Osijek, University of Osijek, Osijek
autor
- University of Rijeka, Faculty of Civil Engineering, Croatia
Bibliografia
- [1] Government of the Republic of Croatia: Law on Sustainable Waste Management (in Croatian). National Newspaper: Zagreb, Croatia, Vol. 94/13,73/17, 14/19, 98/19
- [2] Government of the Republic of Croatia: Ordinance on waste tyres management (in Croatian). National Newspaper: Zagreb, Croatia, Vol. 113/16.
- [3] Government of the Republic of Croatia: Ordinance on the methods and conditions of waste disposal, categories and working conditions for landfills (in Croatian). National Newspaper: Zagreb, Croatia, Vol. 114/15, 103/18, 56/19.
- [4] ETRMA - The European Tyre and Rubber Manufacturers’ Association: The European tyre industry facts and figures 2020 edition. Available online: https://www.etrma.org/wp-content/uploads/2019/12/Figures-leafletupdated-front-2019-larger-NEW-LABEL.pdf (accessed on 9.8.2020.).
- [5] Ministry of Environmental Protection and Energy: Waste vehicle and waste tyres report in 2018 (in Croatian). Zagreb, Croatia, 2020.
- [6] Mohajerani, A.; et al.: Recycling waste rubber tyres in construction materials and associated environmental considerations: A review, Resources, Conservation & Recycling 2020, 155, doi: https://doi.org/10.1016/j.resconrec.2020.104679
- [7] Shu, X.; Huang, B.: Recycling of waste tire rubber in asphalt and portland cement concrete: An overview, Construction and Building Materials 2014, 67 217-224, doi: https://doi.org/10.1016/j.conbuildmat.2013.11.027.
- [8] Jamal, M.; Giustozzi, F.: Low-content crumb rubber modified bitumen for improving Australian local roads condition, Journal of Cleaner Production 2020, 271, doi: https://doi.org/10.1016/j.jclepro.2020.122484.
- [9] Roychand, R.; Gravina, R.J.; Zhuge, Y.; Ma, X.; Youssf, O.; Mills, J.E.: A comprehensive review on the mechanical properties of waste tire rubber concret, Construction and Building Materials 2020, 237, doi: https://doi.org/10.1016/j.conbuildmat.2019.117651.
- [10] Shulman, V.L.: Tyre Recycling; Smithers Rapra Publishing: Shawbury, United Kindgdom, 2004; Vol. 15.
- [11] Hrvatsko asfaltersko društvo: Asphalt production in Croatia and Europe - 2019 (in Croatian) Available online: https://www.h-a-d.hr/?task=group&gid=11&aid=976 (accessed on 11.8.2020.).
- [12] European Asphalt Pavement Association - EAPA: Asphalt in Figures 2018, Availabe online: https://eapa.org/wp-content/uploads/2020/02/Asphalt-in-figures_2018.pdf (accessed on 11.8.2020.).
- [13] The Maryland Asphalt Association Inc.: Asphalt Index. Available online: https://mdasphalt.org/asphalt-index/ (accessed on 9.8.2020.).
- [14] Ding, X.; Chen, L.; Ma, T.; Ma, H.; Gu, L.; Chen, T.; Ma, Y.: Laboratory investigation of the recycled asphalt concrete with stable crumb rubber asphalt binder, Construction and Building Materials 2019, 203, 552-557, doi: https://doi.org/10.1016/j.conbuildmat.2019.01.114.
- [15] Picado-Santos, L.G.; Capitão, S.D.; Neves, J.M.C.: Crumb rubber asphalt mixtures: A literature review, Construction and Building Materials 2020, 247, doi: https://doi.org/10.1016/j.conbuildmat.2020.118577.
- [16] Deshmukh, N.H.; Kshirsagar, D.Y.: Utilization of rubber waste in construction of flexible pavemen, International Journal of Advance Research and Development 2017, 2, 70-77.
- [17] Wulandari, P.S.; Tjandra, D.: Use of Crumb Rubber as an Additive in Asphalt Concrete Mixture, Procedia Engineering 2017, 171, 1384-1389, doi: https://doi.org/10.1016/j.proeng.2017.01.451.
- [18] Gong, J.; Liu, Y.; Wang, Q.; Xi, Z.; Cai, J.; Ding, G.; Xie, H.: Performance evaluation of warm mix asphalt additive modified epoxy asphalt rubbers, Construction and Building Materials 2019, 204, 288-295, doi: https://doi.org/10.1016/j.conbuildmat.2019.01.197.
- [19] Saberi, F.K.; Fakhri, M.; Azami, A.: Evaluation of warm mix asphalt mixtures containing reclaimed asphalt pavement and crumb rubber, Journal of Cleaner Production 2017, 165, 1125-1132, doi: https://doi.org/10.1016/j.jclepro.2017.07.079.
- [20] Jaskulaa,P.; Szydlowskia, C.; Stienssa, M.; Rysa, D.; Jaczewskia, M.; Pszczola, M.: Durable poroelastic wearing course SEPOR with highly modified bitumen, AIIT 2nd International Congress on Transport Infrastructure and Systems in a Changing World (TIS ROMA 2019), 23rd-24th September 2019, Rome, Italy, Transportation Research Procedia 2020, 45, 882-889, doi: https://doi.org/10.1016/j.trpro.2020.02.080
- [21] Wang, D.; Liu, P.; Leng, Z.; Leng, C.; Lu, G.; Buch, M.; Oeser, M.: Suitability of PoroElastic Road Surface (PERS) for urban roads in cold regions: Mechanical and functional performance assessment, Journal of Cleaner Production 2017, 165, 1340-1350, doi.: http://dx.doi.org/10.1016/j.jclepro.2017.07.228
- [22] Jaskula, P.; Ejsmont, J.; Stienss, M.; Ronowski, G.; Szydlowski, C.; Swieczko-Zurek, B.; Rys, D.: Initial Field Validation of Poroelastic Pavement Made with Crumb Rubber, Mineral Aggregate and Highly Polymer- Modified Bitumen, Materials 2020, 13, 1339, doi.: https://doi.org/10.3390/ma13061339
- [23] Yang, X.; You, Z.; Perram, D.; Hand, D.; Ahmed, Z.; Wei, W.; Sang L.: Emission analysis of recycled tire rubber modified asphalt in hot and warm mix conditions, Journal of Hazardous Materials 2019, 265, 942-951.
- [24] Farhan, A.H.; Dawson, A.R.; Thom, N.H.: Characterization of rubberized cement bound aggregate mixtures using indirect tensile testing and fractal analysis, Construction and Building Materials 2016, 105, 94-102, doi: http://dx.doi.org/10.1016/j.conbuildmat.2015.12.018.
- [25] Li, J.; Saberian, M.; Nguyen, B.T.: Effect of crumb rubber on the mechanical properties of crushed recycled pavement materials, Journal of Environmental Management 2018, 218, 291-299, doi: https://doi.org/10.1016/j.jenvman.2018.04.062.
- [26] Saberian, M.; Li, J.; Boroujeni, M.; Law, D.; Li, C.-Q.: Application of demolition wastes mixed with crushed glass and crumb rubber in pavement base/subbase, Resources, Conservation & Recycling 2020, 156, doi: https://doi.org/10.1016/j.resconrec.2020.104722
- [27] Arulrajah, A.; Mohammadinia, A.; Maghool, F.; Horpibulsuk, S.: Tyre derived aggregates and waste rock blends: Resilient moduli characteristics, Construction and Building Materials 2019, 201, 207-217, doi: https://doi.org/10.1016/j.conbuildmat.2018.12.189
- [28] Farhan, A.H.; Dawson, A.R.; Thom, N.H.; Adam, S.; Smith, M.J.: Flexural characteristics of rubberized cementstabilized crushed aggregate for pavement structure, Materials and Design 2015, 88, 897-905, doi: https://doi.org/10.1016/j.matdes.2015.09.071.
- [29] Farhan, A.H.; Dawson, A.R.; Thom, N.H.: Effect of cementation level on performance of rubberized cementstabilized aggregate mixtures, Materials and Design 2016, 97, 98-107, doi: https://doi.org/10.1016/j.matdes.2016.02.059.
- [30] Najim, K.B.; Hall, M.R.: Crumb rubber aggregate coatings/pre-treatments and their effects on interfacial bonding, air entrapment and fracture toughness in self-compacting rubberised concrete (SCRC), Materials and Structures 2013, 46, 2029-2043, doi: https://doi.org/10.1617/s11527-013-0034-4.
- [31] Pelisser, F.; Zavarise, N.; Longo, T.A.; Bernardin, A.M.: Concrete made with recycled tire rubber: Effect of alkaline activation and silica fume addition, Journal of Cleaner Production 2011, 19, 757-763, doi: https://doi.org/10.1016/j.jclepro.2010.11.014.
- [32] Farhan, A.H.; Dawson, A.; Thom, N.: Behaviour of rubberised cement-bound aggregate mixtures containing different stabilisation levels under static and cyclic flexural loading, Road Materials and Pavement Design 2019, doi: https://doi.org/10.1080/14680629.2019.1605924
- [33] Liu, Q.Y.; He, M.; Wang, J.: Research on Improving Shrinkage Performance of Cement Stabilized Gravel with Waste Rubber Particles, Advanced Materials Research 2014, 936, 1446-1450, doi: https://doi.org/10.4028/www.scientific.net/AMR.936.1446.
- [34] Pham, P.N.; Zhuge, Y.; Turatsinze, A.; Toumi, A.; Siddique, R.: Application of rubberized cement-based composites in pavements: Suitability and considerations, Construction and Building Materials 2019, 223, 1182-1195. doi: https://doi.org/10.1016/j.conbuildmat.2019.08.007
- [35] Pacheco-Torres, R.; Cerro-Prada, E.; Escolano, E.; Varela, E.: Fatigue performance of waste rubber concrete for rigid road pavements, Construction and Building Materials 2018, 176, 539-548, doi: https://doi.org/10.1016/j.conbuildmat.2018.05.030.
- [36] Sofi, A.: Effect of waste tyre rubber on mechanical and durability properties of concrete - A review, Ain Shams Engineering Journal 2018, 9, 2691-2700, doi: https://doi.org/10.1016/j.asej.2017.08.007.
- [37] Zhang, Y.M.; Zhao, Z.: Internal Stress Development and Fatigue Performance of Normal and Crumb Rubber Concrete, Journal of Materials in Civil Engineering 2015, 27, 1-9, doi: https://doi.org/10.1061/(ASCE)MT.1943-5533.0001000.
- [38] Di Mundo, R.; Petrella, A.; Notarnicola, M.: Surface and bulk hydrophobic cement composites by tyre rubber addition, Construction and Building Materials 2018, 172, 176-184, doi: https://doi.org/10.1016/j.conbuildmat.2018.03.233.
- [39] Pham, N.P.; Toumi, A.; Turatsinze, A.: Effect of an enhanced rubber-cement matrix interface on freeze-thaw resistance of the cement-based composite, Construction and Building Materials 2019, 207, 528-534, doi: https://doi.org/10.1016/j.conbuildmat.2019.02.147.
- [40] Kardos, A.J.; Durham, S.A.: Strength, durability, and environmental properties of concrete utilizing recycled tire particles for pavement applications, Construction and Building Materials 2015, 98, 832-845, doi: https://doi.org/10.1016/j.conbuildmat.2015.08.065.
- [41] Fakhri, M.; Amoosoltani, E.: The effect of Reclaimed Asphalt Pavement and crumb rubber on mechanical properties of Roller Compacted Concrete Pavement, Construction and Building Materials 2017, 137, 470-484, doi: https://doi.org/10.1016/j.conbuildmat.2017.01.136.
- [42] Lakušić, S.; Haladin, I.; Baričević, A.: The application of recycled rubber in the production of absorbing concrete noise barrieres (in Croatian), Proceedings of 1st BIH congress on railways, Sarajevo, Bosnia and Herzegovina, September 29-30 2011.
- [43] Serdar, M.; Baričević, A.; Lakušić, S.; Bjegović, D.: Special purpose concrete products from waste tyre recyclates, Građevinar 2013, 9/2013.
- [44] Lakušić, S.; Bjegović, D.; Haladin, I.; Baričević, A.; Serdar, M.: RUCONBAR - Innovative noise protection solution made of recycled waste tyres, Mechanics Transport Communications 2011.
- [45] Strukar, K.; Šipoš, T.K.; Dokšanović, T.; Rodrigues, H.: Experimental Study of Rubberized Concrete Stress-Strain Behavior for Improving Constitutive Models, Materials 2018, 11, doi: https://doi.org/10.3390/ma11112245.
- [46] Bušić, R.; Benšić, M.; Miličević, I.; Strukar, K.: Prediction Models for the Mechanical Properties of Self- Compacting Concrete with Recycled Rubber and Silica Fume, Materials 2020, 13, doi: https://doi.org/10.3390/ma13081821.
- [47] European Committee for Standardization. HRN EN 933-1: Tests for geometrical properties of aggregates - Part 1: Determination of particle size distribution – Sieving method, CEN/TC 154: Brussels, 1997.
- [48] European Committee for Standardization: HRN EN ISO 17892-3:2016 Geotechnical investigation and testing - Laboratory testing of soil - Part 3: Determination of particle density; Brussels, 2016.
- [49] European Committee for Standardization (CEN): HRN EN 13286-4. Unbound and hidraulically bound mixtures - Part 4: Test methods for laboratory reference density and water content (Vibrating hammer). Brussels, 2003.
- [50] European Committee for Standardization CEN: HRN EN 13286-41: Unbound and hydraulically bound mixtures - Part 41: Test method for determination of the compressive strength of hydraulically bound mixtures, Brussels, 2003.
- [51] Williams, R.I.T.: Cement-treated Pavements: Materials, Design and Construction; Elsevier Applied Science: London, New York, 1986
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-da4d0cfa-6460-40da-ae2a-78dd6b1230b3