WANG Biao
,
JI Zhenping
,
LIU Wenhong
,
MA Jiaocheng
,
XIE Zhi
钢铁研究学报(英文版)
By means of Gleeble1500 dynamic thermomechanical simulator, the continuous casting process for HRB335C steel was simulated using solidifying method and hot ductility and strength of the steel were determined. The test results indicate that there are three temperature regions of brittleness for HRB335C billet in the temperature range from 700 ℃ to solidification point; the first temperature region of brittleness is 1 300 ℃ to solidification point of the billet, the second temperature region of brittleness is 1 200-1 000 ℃, and the third temperature region of brittleness is 700-850 ℃; the steel is plastic at 850-1 000 ℃. The cracking sensitivity was studied in the different temperature zones of the brittleness for steel HRB335C and the target surface temperature curve for the secondary cooling is determined. With optimized process, the mathematical model of the steady temperature field with twodimensional heat transfer for 150 mm×150 mm HRB335C steel billet was established to optimize the secondary cooling process. The conic relation of water distribution between secondary cooling water flux and casting speed is regressed. Keeping the surface temperature of billet before the straightening point above 1 000 ℃, the results of billet test indicate that there is free central shrinkage cavity. The billet defect is decreased greatly, and the quality of billet is obviously improved.
关键词:
continuous casting billet;brittle temperature zone;tensile strength;secondary cooling;simulation
LIU Wenhong
,
XIE Zhi
钢铁研究学报(英文版)
To improve billet quality and the trackability and stability of secondary cooling water during continuous casting, the superheat is introduced into the water distribution for secondary cooling to design the relevant control system, based on the water distribution model, superheat, surface temperature and fuzzy self-adaptive PID. A spray cooling system is thus set up for simulation test in laboratory to test the step signal from the conventional, integral separated and fuzzy self-adaptive PID controllers and the simulation casting. The simulation test results show that the fuzzy self-adaptive PID controller’s performance is better than the other two controllers, which provides a foundation for further study and application.
关键词:
fuzzy self-adaptive PID;continuous casting;secondary cooling;superheat