How to cite this paper
Farahani, H., Palassi, M & Galooyak, S. (2018). Rheology investigation of waste LDPE and crumb rubber modified bitumen.Engineering Solid Mechanics, 6(1), 27-38.
Refrences
Aguiar-Moya, J. P., Villegas-Villegas, R. E., Loría-Salazar, L. G., & Salazar-Delgado, J. (2013). Use of Waste Products as Bitumen Modifiers in Costa Rica.
Alataş, T., & Yilmaz, M. (2013). Effects of different polymers on mechanical properties of bituminous binders and hot mixtures. Construction and Building Materials, 42, 161-167.
Al-Hadidy, A. I., Yi-Qiu, T., & Hameed, A. T. (2011). Starch as a modifier for asphalt paving materials. Construction and Building Materials, 25(1), 14-20.
Aliha, M. R. M., Fazaeli, H., Aghajani, S., & Nejad, F. M. (2015). Effect of temperature and air void on mixed mode fracture toughness of modified asphalt mixtures. Construction and Building Materials, 95, 545-555.
Ameri, M., Nowbakht, S., Molayem, M., & Aliha, M. R. M. (2016). Investigation of fatigue and fracture properties of asphalt mixtures modified with carbon nanotubes. Fatigue & fracture of engineering materials & structures, 39(7), 896-906.
Brovelli, C., Crispino, M., Pais, J., & Pereira, P. (2015). Using polymers to improve the rutting resistance of asphalt concrete. Construction and Building Materials, 77, 117-123.
Cuadri, A. A., García-Morales, M., Navarro, F. J., & Partal, P. (2013). Isocyanate-functionalized castor oil as a novel bitumen modifier. Chemical Engineering Science, 97, 320-327.
González, E., Costa, L. M., Silva, H. M., & Hilliou, L. (2016). Rheological characterization of EVA and HDPE polymer modified bitumens under large deformation at 20° C. Construction and Building Materials, 112, 756-764.
Hınıslıoğlu, S., & Ağar, E. (2004). Use of waste high density polyethylene as bitumen modifier in asphalt concrete mix. Materials Letters, 58(3), 267-271.
Fuentes-Audén, C., Sandoval, J. A., Jerez, A., Navarro, F. J., Martínez-Boza, F. J., Partal, P., & Gallegos, C. (2008). Evaluation of thermal and mechanical properties of recycled polyethylene modified bitumen. Polymer Testing, 27(8), 1005-1012.
Fang, C., Yu, R., Zhang, Y., Hu, J., Zhang, M., & Mi, X. (2012). Combined modification of asphalt with polyethylene packaging waste and organophilic montmorillonite. Polymer Testing, 31(2), 276-281.
Fang, C., Yu, R., Li, Y., Zhang, M., Hu, J., & Zhang, M. (2013). Preparation and characterization of an asphalt-modifying agent with waste packaging polyethylene and organic montmorillonite. Polymer Testing, 32(5), 953-960.
Fang, C., Li, T., Zhang, Z., & Jing, D. (2008). Modification of asphalt by packaging waste‐polyethylene. Polymer Composites, 29(5), 500-505.
Fang, C., Zhang, Y., Yu, Q., Zhou, X., Guo, D., Yu, R., & Zhang, M. (2013). Preparation, characterization and hot storage stability of asphalt modified by waste polyethylene packaging. Journal of Materials Science & Technology, 29(5), 434-438.
García‐Morales, M., Partal, P., Navarro, F. J., Martínez‐Boza, F. J., & Gallegos, C. (2007). Processing, rheology, and storage stability of recycled EVA/LDPE modified bitumen. Polymer Engineering & Science, 47(2), 181-191.
Gorkem, C., & Sengoz, B. (2009). Predicting stripping and moisture induced damage of asphalt concrete prepared with polymer modified bitumen and hydrated lime. Construction and Building Materials, 23(6), 2227-2236.
Ghile, D. B. (2006). Effects of nanoclay modification on rheology of bitumen and on performance of asphalt mixtures. Delft, The Netherlands: Delft University of Technology.
Navarro, F. J., Partal, P., García-Morales, M., Martín-Alfonso, M. J., Martinez-Boza, F., Gallegos, C., ... & Diogo, A. C. (2009). Bitumen modification with reactive and non-reactive (virgin and recycled) polymers: a comparative analysis. Journal of Industrial and Engineering Chemistry, 15(4), 458-464.
Navarro, F. J., Partal, P., Martínez‐Boza, F. J., & Gallegos, C. (2007). Influence of processing conditions on the rheological behavior of crumb tire rubber‐modified bitumen. Journal of applied polymer science, 104(3), 1683-1691.
Moreno-Navarro, F., Sol-Sánchez, M., & Rubio-Gámez, M. C. (2015). The effect of polymer modified binders on the long-term performance of bituminous mixtures: the influence of temperature. Materials & Design, 78, 5-11.
Naskar, M., Chaki, T. K., & Reddy, K. S. (2010). Effect of waste plastic as modifier on thermal stability and degradation kinetics of bitumen/waste plastics blend. Thermochimica Acta, 509(1), 128-134.
Naskar, M. O. U. M. I. T. A., Chaki, T. K., & Reddy, K. S. (2012). A novel approach to recycle the waste plastics by bitumen modification for paving application. In Advanced Materials Research (Vol. 356, pp. 1763-1768). Trans Tech Publications.
Köfteci, S., Ahmedzade, P., & Kultayev, B. (2014). Performance evaluation of bitumen modified by various types of waste plastics. Construction and Building Materials, 73, 592-602.
Sengoz, B., Topal, A., & Isikyakar, G. (2009). Morphology and image analysis of polymer modified bitumens. Construction and Building Materials, 23(5), 1986-1992.
Tayfur, S., Ozen, H., & Aksoy, A. (2007). Investigation of rutting performance of asphalt mixtures containing polymer modifiers. Construction and Building Materials, 21(2), 328-337.
Alataş, T., & Yilmaz, M. (2013). Effects of different polymers on mechanical properties of bituminous binders and hot mixtures. Construction and Building Materials, 42, 161-167.
Al-Hadidy, A. I., Yi-Qiu, T., & Hameed, A. T. (2011). Starch as a modifier for asphalt paving materials. Construction and Building Materials, 25(1), 14-20.
Aliha, M. R. M., Fazaeli, H., Aghajani, S., & Nejad, F. M. (2015). Effect of temperature and air void on mixed mode fracture toughness of modified asphalt mixtures. Construction and Building Materials, 95, 545-555.
Ameri, M., Nowbakht, S., Molayem, M., & Aliha, M. R. M. (2016). Investigation of fatigue and fracture properties of asphalt mixtures modified with carbon nanotubes. Fatigue & fracture of engineering materials & structures, 39(7), 896-906.
Brovelli, C., Crispino, M., Pais, J., & Pereira, P. (2015). Using polymers to improve the rutting resistance of asphalt concrete. Construction and Building Materials, 77, 117-123.
Cuadri, A. A., García-Morales, M., Navarro, F. J., & Partal, P. (2013). Isocyanate-functionalized castor oil as a novel bitumen modifier. Chemical Engineering Science, 97, 320-327.
González, E., Costa, L. M., Silva, H. M., & Hilliou, L. (2016). Rheological characterization of EVA and HDPE polymer modified bitumens under large deformation at 20° C. Construction and Building Materials, 112, 756-764.
Hınıslıoğlu, S., & Ağar, E. (2004). Use of waste high density polyethylene as bitumen modifier in asphalt concrete mix. Materials Letters, 58(3), 267-271.
Fuentes-Audén, C., Sandoval, J. A., Jerez, A., Navarro, F. J., Martínez-Boza, F. J., Partal, P., & Gallegos, C. (2008). Evaluation of thermal and mechanical properties of recycled polyethylene modified bitumen. Polymer Testing, 27(8), 1005-1012.
Fang, C., Yu, R., Zhang, Y., Hu, J., Zhang, M., & Mi, X. (2012). Combined modification of asphalt with polyethylene packaging waste and organophilic montmorillonite. Polymer Testing, 31(2), 276-281.
Fang, C., Yu, R., Li, Y., Zhang, M., Hu, J., & Zhang, M. (2013). Preparation and characterization of an asphalt-modifying agent with waste packaging polyethylene and organic montmorillonite. Polymer Testing, 32(5), 953-960.
Fang, C., Li, T., Zhang, Z., & Jing, D. (2008). Modification of asphalt by packaging waste‐polyethylene. Polymer Composites, 29(5), 500-505.
Fang, C., Zhang, Y., Yu, Q., Zhou, X., Guo, D., Yu, R., & Zhang, M. (2013). Preparation, characterization and hot storage stability of asphalt modified by waste polyethylene packaging. Journal of Materials Science & Technology, 29(5), 434-438.
García‐Morales, M., Partal, P., Navarro, F. J., Martínez‐Boza, F. J., & Gallegos, C. (2007). Processing, rheology, and storage stability of recycled EVA/LDPE modified bitumen. Polymer Engineering & Science, 47(2), 181-191.
Gorkem, C., & Sengoz, B. (2009). Predicting stripping and moisture induced damage of asphalt concrete prepared with polymer modified bitumen and hydrated lime. Construction and Building Materials, 23(6), 2227-2236.
Ghile, D. B. (2006). Effects of nanoclay modification on rheology of bitumen and on performance of asphalt mixtures. Delft, The Netherlands: Delft University of Technology.
Navarro, F. J., Partal, P., García-Morales, M., Martín-Alfonso, M. J., Martinez-Boza, F., Gallegos, C., ... & Diogo, A. C. (2009). Bitumen modification with reactive and non-reactive (virgin and recycled) polymers: a comparative analysis. Journal of Industrial and Engineering Chemistry, 15(4), 458-464.
Navarro, F. J., Partal, P., Martínez‐Boza, F. J., & Gallegos, C. (2007). Influence of processing conditions on the rheological behavior of crumb tire rubber‐modified bitumen. Journal of applied polymer science, 104(3), 1683-1691.
Moreno-Navarro, F., Sol-Sánchez, M., & Rubio-Gámez, M. C. (2015). The effect of polymer modified binders on the long-term performance of bituminous mixtures: the influence of temperature. Materials & Design, 78, 5-11.
Naskar, M., Chaki, T. K., & Reddy, K. S. (2010). Effect of waste plastic as modifier on thermal stability and degradation kinetics of bitumen/waste plastics blend. Thermochimica Acta, 509(1), 128-134.
Naskar, M. O. U. M. I. T. A., Chaki, T. K., & Reddy, K. S. (2012). A novel approach to recycle the waste plastics by bitumen modification for paving application. In Advanced Materials Research (Vol. 356, pp. 1763-1768). Trans Tech Publications.
Köfteci, S., Ahmedzade, P., & Kultayev, B. (2014). Performance evaluation of bitumen modified by various types of waste plastics. Construction and Building Materials, 73, 592-602.
Sengoz, B., Topal, A., & Isikyakar, G. (2009). Morphology and image analysis of polymer modified bitumens. Construction and Building Materials, 23(5), 1986-1992.
Tayfur, S., Ozen, H., & Aksoy, A. (2007). Investigation of rutting performance of asphalt mixtures containing polymer modifiers. Construction and Building Materials, 21(2), 328-337.