Influence　of　deformation　refinement　grain　and　lubrication　rolling　on　the　cube　texture　formation　in　Ni-9.3　at%W(Ni9.3W)　alloy　substrate　was　analyzed　by　optical　microscope　(OM),　X-ray　diffraction　(XRD)　and　electron　backscattered　diffraction　(EBSD)　technique.　The　results　show　that　the　method　of　deformation　refinement　grain　can　effectively　improve　the　cube　texture　content　in　Ni9.3W　alloy　substrate.　The　grains　are　finer　with　the　increase　of　deformation　reduction,　which　results　in　a　higher　cube　texture　content　in　annealed　substrate.　The　cube　texture　content　by　the　optimized　deformation　refinement　grain　increases　by　9.8%　compared　with　that　without　deformation　refinement　grain　in　Ni9.3W　alloy　substrate.　Besides,　cube　texture　content　increases　by　24.7%　through　adding　total　rolling　deformation　after　deformation　refinement　grain.　Lubrication　rolling　is　able　to　get　more　S　and　Copper　orientation　in　rolling　textures.　After　recrystallization　annealing,　cube　texture　content　with　lubrication　rolling　reaches　86.7%　(＜15　degrees),　which　is　9.6%　higher　than　that　without　lubrication　rolling.　In　addition,　the　twin　boundary　quantity　and　low　angle　grain　boundary　content　by　lubrication　rolling　is　superior　to　that　without　lubrication　rolling,　which　illustrates　that　lubrication　rolling　has　a　significant　effect　on　the　cube　texture　formation.