The　Sm-Zr-Fe-Co-Ti　quinary-alloys　with　ThMn12　structure　has　attracted　wide　attention　for　ultra-high　intrinsic　magnetic　properties,　showing　potentiality　to　be　developed　into　rare-earth　permanent　magnets.　The　Ti　element　in　alloys　is　crucial　for　phase　stability　and　magnetic　properties,　and　lower　Ti　content　can　increase　intrinsic　magnetic　properties　but　reduce　phase　stability.　In　this　study,　the　1:12　single-phase　melt-spun　ribbons　with　low　Ti　content　was　successfully　prepared　using　a　rapid　solidification　non-equilibrium　method　for　the　Sm1.1Zr0.2Fe9.2Co2.3Ti0.5　quinary-alloy.　However,　this　non-equilibrium　ribbon　did　not　achieve　good　magnetic　hardening　due　to　the　uneven　microstructure　and　microstrain.　Then,　annealing　was　carried　out　to　eliminate　micro-strain　and　homogenize　microstructure,　therefore,　remanence　and　coercivity　were　significantly　improved　even　the　precipitation　of　a　small　amount　of　alpha-Fe　phase　which　were　not　conducive　to　coercivity.　The　remanence　of　86.1　emu/g　and　coercivity　of　151　kA/m　was　achieved　when　annealing　at　850　degrees　C　for　45　min.　After　hot　pressing,　under　the　action　of　high　temperature　and　pressure,　a　small　portion　of　ThMn12　phases　in　the　magnet　decompose　into　Sm-rich　phases　and　alpha-Fe,　while　remanence　of　4.02　kGs　(1　Gs　=　10(-4)　T),　and　coercivity　of　1.12　kOe　(1　Oe　=　79.5775　A　&　sdot;m(-1))　were　still　acquired.　Our　findings　can　provide　reference　for　exploring　practical　permanent　magnets　made　of　1:12　type　quinary-alloys.