NiW　alloys　were　fabricated　by　cold　isostatic　pressing,　the　W　content　being　5,　7　and　9.3　at%,　respectively.　The　NiW　substrates　were　obtained　by　rolling　assisted　biaxially　texturing.　The　cold　rolling　and　recrystallization　textures　of　NiW　substrates　were　systematically　studied　by　X-ray　and　EBSD,　which　revealed　a　variation　of　rolling　texture　in　NiW　substrates　with　increasing　W　content,　which　also　influenced　the　copper　(C)　type　and　brass　(B)　type　texture,　as　well　as　the　transition　between　them.　In　addition,　the　recrystallization　texture　was　influenced　by　the　cold　rolling　texture.　The　main　observations　are:　(1)　Deformation　twinning　and　orientation　banding　attributed　to　the　cross　slip　and　it　is　strongly　related　to　the　stacking　fault　energy　which　has　a　decisive　effect　on　the　texture　transition　from　C　to　B　type　texture　in　NiW　substrates　with　the　W　content　increase.　(2)　The　recrystallization　cube　texture　is　strongly　related　to　the　rolling　texture.　The　C　type　texture　was　obtained　in　Ni5W　substrates　with　99%　reduction,　and　was　beneficial　for　the　formation　of　the　cube　texture　after　recrystallization.　The　B　type　texture　was　obtained　in　Ni9W　substrates　with　99%　reduction,　and　it　was　hard　to　obtain　the　cube　texture,　where　a　large　number　of　annealing　twins　were　formed　during　recrystallization　process,　leading　to　the　formation　of　rotating　cube　texture,　and　thereby　affecting　the　formation　of　sharp　cube　texture　in　Ni9W　substrate.