Flue　gas　desulfurization　ash　(FGD)　is　a　byproduct　of　flue　gas　desulfurization　facilities.　Its　comprehensive　utilization　has　attracted　increasing　interest.　In　this　work,　FGD　is　used　as　the　reinforcing　filler　to　improve　the　mechanical　properties　of　carboxylated　styrene-butadiene　rubber　(XSBR).　The　effects　of　FGD　on　the　curing　characteristics,　microtopography,　and　mechanical　properties　of　the　composites　were　studied.　The　results　indicated　that　FGD　can　be　uniformly　dispersed　in　XSBR　and　effectively　improve　the　mechanical　properties　of　XSBR　composites.　The　tensile　strength　of　the　XSBR/25FGD　composite　reaches　14.0 MPa,　approximately　19.7%　higher　than　that　of　pure　XSBR.　Even　if　the　incorporation　of　FGD　reaches　45　phr,　the　tensile　strength　is　still　higher　than　that　of　pure　XSBR.　The　composites　obtained　a　lower　rate　of　thermal　degradation　than　XSBR.　The　DMA　properties　of　the　composites　may　be　improved　by　the　appropriate　amount　of　addition.　This　work　provides　a　new　method　for　making　more　effective　use　of　FGD　in　the　polymer　field,　which　has　significant　economic　and　environmental　benefits.　©　2022　Wiley　Periodicals　LLC.