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Evaluation of physical and mechanical properties of cement-treated base incorporating crushed waste tires

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Pavements play a pivotal role in facilitating safe and efficient transportation. However, conventional pavement construction consumes substantial virgin resources, necessitating a shift towards sustainable alternatives. This study explores the integration of crushed waste tires as partial replacements for sand and gravel in cement-treated base (CTB) layers, aiming to enhance pavement sustainability. The CTB mixtures were meticulously formulated and tested for their physical and mechanical properties. Results revealed that while the presence of waste tire aggregates affected the fresh-state rheology, the cured-state performance remained satisfactory, often exceeding normative requirements. Notably, the addition of 10% rubber powder enhanced the mechanical performance of the CTB mixtures and overall exhibited acceptable shrinkage values. The findings offer insights into designing resilient and sustainable pavement systems by using crushed waste tires, aligning with modern infrastructure demands.
Rocznik
Strony
305--319
Opis fizyczny
Bibliogr. 24 poz., tab., wykr., zdj.
Twórcy
autor
  • University Mentouri of Constantine, Department of Civil Engineering, Laboratoire Matériaux et Durabilité des Constructions, Algérie
  • University Mentouri of Constantine, Department of Civil Engineering, Laboratoire Matériaux et Durabilité des Constructions, Algérie
Bibliografia
  • Association française de Normalisation [AFNOR] (2005). Mélanges traités aux liants hydrauliques. Partie 1: Mélanges granulaires traités au ciment [Hydraulically bound mixtures - Specifications. Part 1: cement bound granular mixtures] (EN 14227-1).
  • Association française de Normalisation [AFNOR] (2008). Aggregates for unbound and hydraulically bound materials for use in civil engineering work and road construction (NF EN 13242+A1).
  • Association française de Normalisation [AFNOR] (2018). Unbound mixtures - specifications (NF EN 13285).
  • Alam, I., Mahmood, U. A. & Khattak, N. (2015). Use of rubber as aggregate in concrete: a review. International Journal of Advanced Structures and Geotechnical Engineering, 4 (2), 92-96.
  • Correia, A. G., Winter, M. G. & Puppala, A. J. (2016). A review of sustainable approaches in transport infrastructure geotechnics. Transportation Geotechnics, 7, 21-28.
  • European Committee for Standardization [CEN] (2010). Unbound and hydraulically bound mixtures. Part 2: Test methods for laboratory reference density and water content – Proctor compaction (EN-B-13286-2).
  • European Committee for Standardization [CEN] (2016). Methods of testing cement. Part 1: Determination of strength (EN-T-196-1).
  • Ganjian, E., Khorami, M. & Maghsoudi, A. A. (2009). Scrap-tyre-rubber replacement for aggregate and filler in concrete. Construction and Building Materials, 23 (5), 1828-1836.
  • Li, J., Xiao, F., Zhang, L. & Amirkhanian, S. N. (2019). Life cycle assessment and life cycle cost analysis of recycled solid waste materials in highway pavement: a review. Journal of Cleaner Production, 233, 1182-1206.
  • Lu, Q., Xin, C., Alamri, M. & Alharthai, M. (2021). Development of porous asphalt mixture with bio-based epoxy asphalt. Journal of Cleaner Production, 317, 128404.
  • Medaoud, S., Mokrani, L., Mezhoud, S. & Ziane, S. (2022). Characterization of stabilised sewage sludge for reuse in road pavement. Civil and Environmental Engineering Reports, 32 (1), 201-217.
  • Mezhoud, S., Clastres, P., Houari, H. & Belachia, M. (2018). Field investigations on injection method for sealing longitudinal reflective cracks. Journal of Performance of Constructed Facilities, 32 (4), 04018041.
  • Mezhoud, S., Houari, H. & Boubaker, F. (2017). Valorisation des fraisât routiers et produits de démolition pour la fabrication de mélanges granulaires traites aux liants hydrauliques [Valorisation of road millings and demolition products for the manufacture of granular mixtures treated with hydraulic binders]. Algerian Journal of Environmental Science and Technology, 3 (3), 539-543.
  • Mohajerani, A., Burnett, L., Smith, J. V., Markovski, S., Rodwell, G., Rahman, M. T., Kurmus, H., Mirzababaei, M., Arulrajah, A., Horpibulsuk, S. & Maghool, F. (2020). Recycling waste rubber tyres in construction materials and associated environmental considerations: a review. Resources, Conservation and Recycling, 155, 104679.
  • Mohanty, M., Mohapatra, S. S. & Nayak, S. (2022). Efficacy of C&D waste in base/subbase layers of pavement - current trends and future prospectives: a systematic review. Construction and Building Materials, 340, 127726.
  • Orouji, M. & Najaf, E. (2023). Effect of GFRP rebars and polypropylene fibers on flexural strength in high-performance concrete beams with glass powder and microsilica. Case Studies in Construction Materials, 18, e01769.
  • Orouji, M., Zahrai, S. M. & Najaf, E. (2021). Effect of glass powder & polypropylene fibers on compressive and flexural strengths, toughness and ductility of concrete: an environmental approach. Structures, 33, 100546.
  • Pham, P. N., Zhuge, Y., Turatsinze, A., Toumi, A. & Siddique, R. (2019). Application of rubberized cement-based composites in pavements: suitability and considerations. Construction and Building Materials, 223, 1182-1195.
  • Plati, C. (2019). Sustainability factors in pavement materials, design, and preservation strategies: a literature review. Construction and Building Materials, 211, 539-555.
  • Prasad, A. S., Ravichandran, P., Annadurai, R. & Rajkumar, P. (2014). Study on effect of crumb rubber on behavior of soil. International Journal of Geomatics and Geosciences, 4, 579-584.
  • Saberian, M., Li, J., Perera, S. T. A. M., Zhou, A., Roychand, R. & Ren, G. (2021). Large-scale direct shear testing of waste crushed rock reinforced with waste rubber as pavement base/subbase materials. Transportation Geotechnics, 28, 100546.
  • Siddika, A., Mamun, M. A. A., Alyousef, R., Amran, Y. H. M., Aslani, F. & Alabduljabbar, H. (2019). Properties and utilizations of waste tire rubber in concrete: a review. Construction and Building Materials, 224, 711-731.
  • Sofi, A. (2018). Effect of waste tyre rubber on mechanical and durability properties of concrete - a review. Ain Shams Engineering Journal, 9 (4), 2691-2700.
  • Zhang, J., Li, C., Ding, L. & Li, J. (2021). Performance evaluation of cement stabilized recycled mixture with recycled concrete aggregate and crushed brick. Construction and Building Materials, 296, 123596.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-41308f17-c2e9-45dc-88e7-7d10dc85f85f
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