Abstract: The production process of Φ 14 mm products of steel HRB400 (/% : 0. 21 ~0. 25C, 0. 35 ~0. 60Si, 1.30 - 1.55Mn, 0.045P, 0.045S) is 100 t BOF-argon blowing-150 mm x 150 mm billet casting-rolling. In order to resolve the cold-bending cracking phenomenon by increasing yield strength of steel HRB400 besides higher C and Mn content in steel, the commercial pilot production by adding titanium nitride for Ti microalloying and optimizing control rolling-cooling process is carried out. Results show that with decreasing Mn and Si content (/% ) in steel respectively by 0. 35 and 0. 1, and adding 0. 007% Ti in steel (test No2) , or controlling steel reinforced bar going to cold bed temperature at 670 ~ 690 °C (test No2 ) , the yield strength of finished reinforced bar is up to 460 MPa the test aim value ； as using Ti microalloying and optimizing cooling process (/% : 0. 22C, 0. 34Si, 1. OOMn, 0. 007Ti and going to cold bed temperature at 670 ~ 710 °C , test No3) the average yield strength R_el of test steel is up to 485 MPa, while as using original process (/% : 0. 22C, 0. 43Si, 1. 37Mn and going to cold bed temperature at 690 ~ 730 X.) the average yield strength R_el is only 435 MPa.