冶金自动化
冶金自動化
야금자동화
METALLURGICAL INDUSTRY AUTOMATION
2014年
5期
49-52
,共4页
高雷%郭立伟%李书昌%陈丹%何绪铃
高雷%郭立偉%李書昌%陳丹%何緒鈴
고뢰%곽립위%리서창%진단%하서령
摩擦系数%模型优化%回归分析%冷轧
摩抆繫數%模型優化%迴歸分析%冷軋
마찰계수%모형우화%회귀분석%랭알
friction coefficient%model optimization%regression analysis%cold rolling
冷轧轧制过程摩擦系数模型为非线性多项式,为了获得更能反应实际轧制工况的摩擦系数模型参数,充分利用实际工艺数据,通过优化的方法对模型参数进行回归分析。实际应用证明,该方法可以提高轧制过程摩擦系数模型设定精度,为高精度轧制提供基础。
冷軋軋製過程摩抆繫數模型為非線性多項式,為瞭穫得更能反應實際軋製工況的摩抆繫數模型參數,充分利用實際工藝數據,通過優化的方法對模型參數進行迴歸分析。實際應用證明,該方法可以提高軋製過程摩抆繫數模型設定精度,為高精度軋製提供基礎。
랭알알제과정마찰계수모형위비선성다항식,위료획득경능반응실제알제공황적마찰계수모형삼수,충분이용실제공예수거,통과우화적방법대모형삼수진행회귀분석。실제응용증명,해방법가이제고알제과정마찰계수모형설정정도,위고정도알제제공기출。
The friction coefficient model in cold rolling process is a nonlinear polynomial. In order to get the parameters of friction coefficient model which can better reflect the real rolling condition,we perform regression analysis on the parameters through optimized method by making full use of the ac-tual process data. The practical application proves that it can improve the calculation precision of the friction coefficient model in cold rolling process and provide a basis for high accuracy rolling.
