Various hot rolling schedules were applied to a Nb,V,Ti contained HSLA steel.Coiling temperature had crucial effects on not only yield strength,but also yield ratio and precipitation behavior.600Mpa yield strength is achieved when coiled at 450℃,which is 100Mpa higher than those coiled at 570℃.However,the low coiling temperature had adverse effect to increase yield ratio,which increased from 0.78 to 0.88 as coiling temperature dropped from 570℃ to 450℃.High resolution SEM analysis shows that sizes of Nb,V,Ti precipitates are affected by coiling temperature.Coarse (Nb,Ti)(C,N) precipitates up to 5μm are observed at higher coiling temperature and to decrease tensile strength,where high coiling temperature corresponds to low cooling rate.With strong cooling and coiling capacity of Shasteel’s 1450mm width hot rolling mill,these results indicate that strength and formability of the steel can be balanced when coiling temperature has been optimized.Alloying and microalloying costs can be reduced by efficiently utilizing the capacity of rolling mill.Alumina inclusions are found to act as nucleus for Nb,V,Ti precipitates,contributing to coarsening of precipitates. Various hot rolling schedules were applied to a Nb, V, Ti contained HSLA steel. Coiling temperature had crucial effects on not only yield strength, but also yield ratio and precipitation behavior. 600 MPa yield strength achieved achieved when coiled at 450 ° C, which is 100 MPa Higher than those coiled at 570 ° C., the low coiling temperature had adverse effect to increase yield ratio, which increased from 0.78 to 0.88 as coiling temperature dropped from 570 ° C. to 450 ° C. High resolution SEM analysis shows that sizes of Nb, V , Co (Ti, Ti) (C, N) precipitates up to 5 μm are observed at higher coiling temperature and to decrease tensile strength, where high coiling temperature corresponds to low cooling rate. Strong cooling and coiling capacity of Shasteel’s 1450mm width hot rolling mill, these results said that strength and formability of the steel can be balanced when coiling temperature has been optimized. Alloying and microalloying costs ca n be reduced by efficiently utilizing capacity of rolling mill. Aluminum inclusions are found to act as nucleus for Nb, V, Ti precipitates, contributing to coarsening of precipitates.