Face-centered　cubic　(FCC)　metals　exhibit　varying　stacking　fault　energies　(SFE),　which　predominantly　lead　to　the　development　of　copper-type　and　brass-type　textures　during　extensive　deformation　rolling.　However,　the　mechanism　underlying　the　formation　of　brass-type　textures　remains　poorly　understood.　This　study　identifies　the　significant　role　of　Goss-oriented　texture　in　driving　the　development　of　brass-type　texture　in　nickel-based　metals.　Despite　its　importance,　the　Goss-oriented　texture　has　often　been　overlooked　in　studies　focusing　on　the　rolling　texture　of　FCC　metals　due　to　its　relatively　low　occurrence.　This　investigation　explores　the　formation　of　Gossoriented　texture　during　the　rolling　process　of　nickel-based　metals　and　its　influence　on　microstructural　deformation.　Research　indicates　that　the　formation　of　Goss-oriented　texture　primarily　arises　from　two　mechanisms:　dislocation　slip　and　twinning　deformation　of　copper-oriented　grains.　While　dislocation　slip　minimally　affects　the　microstructure　during　metal　rolling,　twinning　deformation　induces　stress　concentration　and　the　initiation　of　shear　bands.　These　factors　subsequently　influence　dislocation　slip　in　copper-oriented　grains,　ultimately　leading　to　the　formation　of　brass-type　rolling　texture.