AlCoCrFeNi　has　excellent　mechanical　properties,　however,　its　hardness　and　wear　resistance　are　insufficient　for　engineering　applications.　In　order　to　improve　the　wear　resistance　of　AlCoCrFeNi　coating,　WC　and　in-situ　TiC　particles　were　used　in　this　work.　Subsequently,　the　microstructure,　hardness,　and　wear　resistance　were　studied　in　detail.　The　results　showed　that　the　in-situ　TiC　particles　were　uniformly　distributed　in　the　whole　coating,　ameliorating　the　uneven　distribution　of　WC　particles.　A　sound　interface　was　formed　between　the　particles　and　the　coating　matrix,　proving　the　composite　coating　with　excellent　performance　in　wear　resistance.　The　phase　constituents　of　the　coating　matrix　were　the　BCC　and　B2　phases.　And　BCC　phase　occurred　lattice　distortion　due　to　the　dissolution　of　W　atoms,　resulting　in　the　solid　solution　strengthening　of　coating　matrix.　Furthermore,　with　the　increase　of　WC　content,　a　needle　W-rich　BCC　phase　appeared　in　the　coating　matrix.　Finally,　the　hardness　of　AlCoCrFeNi-WC/TiC　coatings　increased　from　516.4　HV0.3　to　808.7　HV0.3,　and　the　wear　resistance　was　increased　by　14　times.　The　improvement　in　hardness　can　be　attributed　to　the　WC　particles,　in-situ　TiC　particles,　and　solid　solution　strengthening.