Modified asphalt binders: A bibliographic analysis
Keywords:Modified asphalt binders; Floors; New materials.
The application of modified asphalt binders on road pavements has grown steadily in recent decades. This fact is justified by several reasons such as the advent of the great advance of the chemical industries, the consecration of the use of polymeric materials in reinforcement works and several advantages that arise from these facts such as economy, safety, durability, among others. In this theme, the present work aims to carry out a bibliographic review addressing the main researches on modified asphalt binders.
Bernucci, L. B., Motta, L. M. G., Ceratti, J. A. P., Soares, J. B. (2008). Pavimentação asfáltica: formação básica para engenheiros. PETROBRAS/ABEDA.
Bindu, C. S., Joseph, M. S., Sibinesh, P. S., George, S., Sivan, S. (2020). Performance evaluation of warm mix asphalt using natural rubber modified bitumen and cashew nut shell liquid. International Journal of Pavement Research and Technology, 13, 442-453.
Chen, C., Podolsky, J. H., Williams, R. C., Cochran, E. W. (2018). Laboratory investigation of using acrylated epoxidized soybean oil (AESO) for asphalt modification. Construction and Building Materials, 187, 267-279.
Dondi, G., Mazzotta, F., Simone, A., Vignali, V., Sangiorgi, C., Lantieri, C. (2016). Evaluation of different short term aging procedures with neat, warm and modified binders. Construction and Building Materials, 106, 282–289.
Huang, M., Huang, W. (2016). Laboratory investigation on fatigue performance of modified asphalt concretes considering healing. Construction and Building Materials, 113, 68-76.
Kumar, K., Singh, A., Maity, S. K., Srivastava, M., Sahai, M., Singh, R. K., Garg, M. O. (2016). Rheological studies of performance grade bitumens prepared by blending elastomeric SBS (styrene butadiene styrene) co-polymer in base bitumens. Journal of Industrial and Engineering Chemistry, 44, 112-117.
Liang, R., Jin, R., Zhou, D., Sun, W., Kang, Y. (2016). Nonlinear rheological behaviors of epoxy asphalt binder compared to base asphalt binder and SBS modified asphalt binder at above ambient temperatures. Construction and Building Materials, 250, 118755.
Polacco, G., Berlincioni, S., biondi, D., Stastna, J., Zanzotto, L. (2005). Asphalt modification with different polyethylene-based polymers. European Polymer Journal, 41, 2831-2844.
Pamplona, T. F., Amoni, B. C., Alencar, A. E. V., Lima, A. P. D., Ricardo, N. M. P. S., Soares, J. B., Soares, S. A. (2012). Asphalt binders modified by SBS and SBS/nanoclays: effect on rheological properties. Journal of the Brazilian Chemical Society, 23 (4), 639-647.
Marcon, M. F. (2016). Estudo e comparação do desempenho mecânico e reológico entre concretos asfálticos modificados por polímero SBS, borracha moída de pneu e nanomateriais. Universidade Federal de Santa Catarina. Dissertação de Mestrado.
Melo, J. V. S. (2014). Desenvolvimento e estudo do comportamento reológico e desempenho mecânico de concretos asfálticos modificados com nanocompósitos. Universidade Federal de Santa Catarina, Tese de Doutorado.
Melo, J. V. S., Trichês, G. (2016). Caracterização da Resistência à Fadiga de Misturas Asfálticas Reforçadas Com Camadas Nanométricas de Silicatos. Revista Pavimentação, 42, 43-58.
Melo, J. V. S., Trichês, G. (2016). Effects of organophilic nanoclay on the rheological behavior and performance leading to permanent deformation of asphalt mixtures. Journal of Materials in Civil Engineering, 28 (11), 04016142.
Santos, N. S., Rodrigues, J. K. G., Mendonca, A. M. G. D. (2018). Efeito da adição de lignina kraft proveniente da madeira de eucalipto na reologia do CAP 50/70. Matéria, 23 (3), e12158.
Silva, J. A. A., Rodrigues, J. K. G., Carvalho, M. W., Lucena, L. C. F. L., Cavalcante, E. H. (2018). Avaliação reológica de ligante modificado com Politereftalato de etileno (PET). Matéria, 23, 11951.
Sun, Z., Yi, J., Huang, Y., Feng, D., Guo, C. (2016). Properties of asphalt binder modified by bio-oil derived from waste cooking oil. Construction and Building Materials, 102, 496-504.
Tayfur, S., Ozen, H., Aksoy, A. (2007). Investigation of rutting performance of asphalt mixtures containing polymer modifiers. Construction and Building Materials, 21 328–337.
Xiao, F., Amirkhanian, S., Wang, H., Hao, P. (2014). Rheological property investigations for polymer and polyphosphoric acid modified asphalt binders at high temperatures. Construction and Building Materials, 64, 316-323.
Xin, X., Liang, M., Yao, Z., Su, L., Zhang, J., Li, P., Sun, C., Jiang, H. (2020). Self-sensing behavior and mechanical properties of carbon nanotubes/epoxy resin composite for asphalt pavement strain monitoring. Construction and Building Materials, 257, 10, 119404.
Vamegh, M., Ameri, M., Naeni, S. F. C. (2020). Experimental investigation of effect of PP/SBR polymer blends on the moisture resistance and rutting performance of asphalt mixtures. Construction and building materials, 253, 119197.
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