A　novel　solid-clad-by-liquid　method　was　developed　to　form　a　10-m　long　by　10-mm　wide　by　80-lm　thick　Ni-5　at.%　W/Ni-9.3　at.%　W/Ni-5　at.%　W　composite　tape.　Three　deformation　routes　(cold　rolling,　cold　rolling　with　intermediate　annealing,　and　cold　rolling　combined　with　warm　rolling)　have　been　investigated　in　short　Ni-5　at.%　W/Ni-9.3　at.%　W/Ni-5　at.%　W　composite　substrate.　To　optimize　the　dynamic　continuous　annealing　parameters　for　the　long　composite　substrates,　air-cooled　and　furnace-cooled　annealing　procedures　were　compared　in　short　Ni-5　at.%　W/Ni-9.3　at.%　W/Ni-5　at.%　W　composite　substrates.　Improved　cube　texture　of　98.7%　in　a　10-m　long　by　10-mm　wide　by　80-lm　thick　Ni-5　at.%　W/Ni-9.3　at.%　W/Ni-5　at.%　W　composite　substrate　was　achieved　via　warm　rolling　deformation　at　550　degrees　C　and　two-step　dynamic　continuous　annealing　(750　degrees　C　for　1　h　followed　by　1200　degrees　C　for　1　h).　The　yield　strength,　Curie　temperature,　and　saturation　magnetization　of　176　MPa,　324　K,　and　18　emu/g,　respectively,　were　obtained.