Ti-6Al-4V　has　many　applications　in　aerospace,　medical　devices,　and　other　fields.　However,　the　high　hardness,　high　toughness,　and　low　thermal　conductivity　of　Ti-6Al-4V　make　it　difficult　to　machine.　In　this　paper,　two　ordinary　textures　and　two　combinatorial　textures　were　designed　on　the　surface　of　Ti-6Al-4V　by　laser　ablation.　Subsequently,　form　grinding　experiments　were　conducted　using　a　white　corundum　grinding　wheel　to　compare　the　effects　of　untextured　and　different　textures　on　the　grinding　performance　of　Ti-6Al-4V,　including　grinding　force,　surface　morphology,　surface　roughness,　edge　morphology,　and　surface　microhardness.　The　experimental　results　show　that　the　grinding　performance　of　workpieces　with　laser　textures　is　all　better　than　that　of　untextured　workpieces.　Among　them,　the　combinatorial　textured　(DST1)　workpieces　showed　the　maximum　reduction　of　tangential　and　normal　forces　by　about　22　%　and　29　%,　respectively,　the　reduction　of　surface　roughness　by　20.1　%,　and　the　increase　of　microhardness　by　11.2　%.　The　results　show　that　laser　texturing　of　Ti-6Al-4V　surfaces　can　improve　grinding　performance,　enhance　surface　integrity,　and　realize　efficient　and　low-damage　machining.　©　2025　Elsevier　Ltd