A　100-meter-long　Ni-5at%W　(Ni5W)　alloy　tape　with　similar　to　66　mu　m　thickness　has　been　fabricated　by　rolling　assisted　bi-axially　textured　substrate　route　technique　(RABiTS).　A　10　m　long　section　was　taken　from　the　original　piece　and　recrystallized　in　a　home-designed　reel-to-reel　heat　treatment　system.　XRD　texture　characterization　shows　that　the　average　content　of　rolling　textures　is　63.8%　(＜=　10　degrees)　before　annealing,　and　the　average　FWHM　values　of　the　in-plane　and　out-of-plane　texture　over　the　annealed　tape　length　are　7.2　and　6.1,　respectively.　Moreover,　EBSD　analyses　indicate　that　the　content　of　the　cube　texture　reaches　98.7%　(＜=　10　degrees)　and　that　of　the　grain　boundaries　exceeds　87.7%　(＜=　10　degrees).　In　the　cold-rolling　process,　increasing　the　reduction　in　the　first　pass　while　changing　to　another　mill　can　effectively　reduce　the　broken　cases.　These　results　prove　that　the　process　has　the　ability　to　yield　Ni-5at%W　tapes　with　a　high　cube　texture　and　homogeneous　qualities,　which　will　be　able　to　satisfy　the　requirements　of　the　YBa2Cu3O7-x,　superconductive　layer.