Deformation　and　recrystallization　textures　of　Ni9W　alloy　tapes　deformed　by　cold　rolling　with　and　without　intermediate　annealing　were　investigated　by　XRD,　which　indicated　the　texture　transition　between　rolling　and　recrystallization　textures　during　annealing.　Furthermore,　the　microstructure　and　cube　texture　of　Ni9W　alloy　substrates　were　studied　by　electron　back　scattered　diffraction　(EBSD).　The　results　show　that　there　are　more　fractions　of　S　and　Copper　orientations　as　well　as　less　Brass　orientations　in　the　rolling　texture　of　Ni9W　alloy　tapes　cold　rolled　with　intermediate　annealing,　resulting　in　a　mixed　rolling　texture　between　Brass　type　and　Copper　type.　The　fractions　of　rolling　texture　for　both　Ni9W　tapes　are　increased　during　a　long-term　recovery,　and　then　decreased　significantly　in　recrystallization　process.　But,　the　fraction　of　cube　orientation　does　not　increase　obviously,　while　a　large　amount　of　random　orientation　forms　during　recrystallization.　The　recrystallization　of　the　Ni9W　alloy　is　continuous,　which　is　one　of　the　main　reasons　for　rough　cube　texture　formation　in　Ni9W　substrates.　Though　there　is　no　strong　cube　texture　formed　after　primary　recrystallization　for　the　Ni9W　taps　cold　rolled　with　intermediate　annealing,　the　fraction　of　cube　orientation　can　be　enhanced　during　grain　growth　with　high　temperature　annealing.　At　last,　strong　cube　texture　fraction　of　84.5%　(＜　15　degrees)　is　obtained　by　two-step　annealing　for　the　Ni9W　substrates　deformed　by　cold　rolling　with　intermediate　annealing.