Oruç Ş.Yılmaz B.20.04.20192019-04-2020.04.20192019-04-2020160950-0618https://dx.doi.org/10.1016/j.conbuildmat.2016.07.003https://hdl.handle.net/20.500.12403/581In current times, many additives are used to improve the performance characteristics of asphalt. In this study, a new additive that contains boron, given the short name of cyclic borate ester (CBE), was chemically synthesised in laboratory conditions. It was added to the asphalt binder as 1%, 2%, 4% and 6% ratios of asphalt by weight, and modified asphalt samples were produced. The effects of CBE on the conventional properties of asphalt binder (penetration, softening point, ductility, flash point, Fraass breaking point) were examined using a dynamic shear rheometer, rotational viscosity, a rolling thin film oven, a pressure aging vessel and bending beam rheometer test methods. Results showed that the use of CBE additive increased the hardness, softening point, viscosity, flash-point value and rutting resistance of asphalt binder and decreased temperature sensitivity. CBE also enhanced elastic responses (increased complex shear modulus and decreased phase angle), aging resistance and low-temperature cracking resistance and did not change the cohesion property. © 2016eninfo:eu-repo/semantics/closedAccessBorate esterBoronModified asphaltPerformance propertiesRheologyAdditivesAsphaltAsphalt pavementsBindersBinsBoronEstersFerroelectric materialsRheologyRheometersShear flowTemperatureViscosityBorate estersDynamic shear rheometerLow temperature cracking resistanceModified asphaltsPerformance characteristicsPerformance propertiesRolling thin film ovensTemperature sensitivityAging of materialsBorate esterBoronModified asphaltPerformance propertiesRheologyAdditivesAsphaltAsphalt pavementsBindersBinsBoronEstersFerroelectric materialsRheologyRheometersShear flowTemperatureViscosityBorate estersDynamic shear rheometerLow temperature cracking resistanceModified asphaltsPerformance characteristicsPerformance propertiesRolling thin film ovensTemperature sensitivityAging of materialsImprovement in performance properties of asphalt using a novel boron-containing additiveArticle12320721310.1016/j.conbuildmat.2016.07.0032-s2.0-84978312760Q1WOS:000383813000024Q1