Ti6Al4V　titanium　alloy　was　prepared　by　selective　laser　melting　(SLM)　technology.　The　effects　of　different　forming　surfaces　(XOY,　XOZ)　and　different　loads　(20,　40,　60,　80　N)　on　the　friction　and　wear　properties　of　Ti6Al4V　alloy　were　studied.　The　friction　and　wear　properties　of　different　forming　surfaces　were　evaluated　by　friction　coefficient　(COF)　combined　with　wear　volume　loss,　and　the　wear　track　morphology　and　wear　mechanism　were　characterized　by　optical　microscope　(OM)　and　three-dimensional　profile　measuring　instrument.　The　results　show　that　compared　with　the　XOZ　surface,　the　wear　volume　of　the　XOY　surface　is　reduced　by　0.27x10(-5)　mm(3)　when　the　normal　load　is　20　N,　and　the　average　friction　coefficient　is　smaller.　However,　when　the　load　is　greater　than　20　N,　the　wear　volume　and　average　friction　coefficient　of　XOY　surface　are　larger　than　those　of　XOZ　surface.　The　depth　and　width　of　the　plough　groove　of　the　worn　track　increase　with　the　increase　of　the　load.　The　plough　groove　exhibits　obvious　peeling　behavior,　and　there　is　a　blocky　＂adhesive＂　distributing　on　the　track,　causing　adhesive　wear　and　oxidative　wear.　From　the　aspects　of　friction　coefficient,　wear　volume　and　micro-morphology,　it　is　quantitatively　reflected　that　XOZ　surface　of　Ti6Al4V　alloy　formed　by　SLM　has　better　friction　and　wear　performance　than　XOY　surface,　and　XOY　surface　shows　better　wear　resistance　only　under　low　load.