Ultraviolet　(UV)　radiation　is　one　of　the　main　causes　of　asphalt　pavement　aging.　The　development　of　UV-resistant　technology　is　of　great　significance　to　improve　the　durability　of　asphalt　pavement.　In　order　to　evaluate　the　feasibility　of　carbon　black　(CB)　and　hindered　amine　light　stabilizer　(HALS)　as　UV-resistant　additives,　the　modified　asphalt　binders　were　prepared　by　adding　CB　and　HALS.　The　dispersibility　of　UV-resistant　additives　in　asphalt　binder　was　evaluated　by　using　a　fluorescence　microscope.　Then,　the　aging　resistance　of　additives　and　their　effects　on　virgin　asphalt　binder　were　qualitatively　evaluated　by　calculating　rheological　parameters.　The　new　aging-resistant　index　and　impact　index　were　defined.　The　results　show　that　the　aging-resistant　index　and　impact　index　can　accurately　characterize　the　aging　resistance　of　additives　and　their　effect　on　virgin　asphalt　binder.　The　UV-resistant　additives　slowed　down　the　aging　rate　of　asphalt　binder.　A　3　%　dosage　of　CB　had　a　great　adverse　effect　on　the　properties　of　virgin　asphalt　binder.　HALS　showed　good　UV　resistance　and　had　little　effect　on　virgin　asphalt　binder.　The　aging-resistant　index　of　asphalt　binder　modified　by　HALS　was　about　1.63　times　that　of　the　asphalt　binder　modified　by　CB　at　the　same　dosage　(1　%).　The　aging-resistant　index　of　asphalt　binder　modified　by　1　%　HALS　was　only　about　1.31　times　that　of　asphalt　binder　modified　by　0.5　%　HALS.　In　addition,　the　dosage　of　HALS　was　changed　from　0.5　%　to　1　%　and　the　impact　indexes　changed　to　more　than　2.67　times.　It　was　considered　that　HALS　was　more　suitable　for　improving　the　aging　resistance　of　asphalt　binder　with　an　optimal　dosage　of　0.5　%.