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据Stahl und Eisen No12,1990,P109报道,德国蒂森公司和振动测量仪表公司(SMS)合作,研制出一种早期识别连铸坯拉漏的智能自适应系统。在连铸操作发生变化,更换结晶器、改浇其他钢种和改变板坯断面尺寸以及结晶器形状时,该监视系统能够针对实际条件迅速实现匹配和最佳化。在浇铸期间,结晶器振动台架使结晶器沿正弦轨迹作上下运动,防止坯壳粘附在铜板上。同时结晶器内添加浇铸保护渣,加强润滑。连铸坯离开结晶器时,坯壳厚度通常为10~15mm。如果坯壳粘附在铜板上,由于
According to Stahl und Eisen No 12, 1990, P109, ThyssenKrupp and Vibration Measurement Instrumentation (SMS) have worked together to develop an intelligent adaptive system for early detection of strand blowout. The monitoring system is able to quickly adapt and optimize to the actual conditions as the continuous casting operation changes, the mold is changed, the steel is changed over and the slab section size and mold shape are changed. During casting, the mold shaking table moves the mold up and down along a sinusoidal path to prevent the blank from adhering to the copper plate. At the same time adding mold casting mold flux to enhance lubrication. Billet left the mold, the shell thickness is usually 10 ~ 15mm. If the shell adheres to the copper plate, due