In　this　work　the　formation　of　strong　recrystallization　cube　texture　in　heavily　rolled　Ni-9.3　at　%　W　has　been　studied.　During　the　cold　rolling　(also　known　as　recovery-rolling)　process　the　deformation　texture　of　Ni-9.3　at　%　W　alloy　(further　notated　as　Ni9W)　transforms　to　Copper-type　rolling　texture,　and　after　annealing,　a　sharp　cube　texture　is　generated.　It　is　remarkably　strong　recrystallization　cube　texture,　as　high　as　93　vol　%,　in　metallic　materials　with　low　stacking　fault　energy.　The　formation　mechanism　of　the　cube　texture　is　adopted　for　the　rapid　recovery　of　cube　nuclei　at　the　early　stage　of　recrystallization　as　well　as　fast　migration　rate　of　high　angle　boundaries　between　cube　grains　and　deformed　microstructure　at　high　temperature.　Considering　the　cold　rolling　texture　of　Ni9W,　oriented　nucleation　seems　to　play　more　important　role　in　the　cube　texture　formation　process.　In　this　article,　the　relationship　between　the　deformation　texture　and　recrystallization　cube　texture　is　discussed.