天津大学学报
天津大學學報
천진대학학보
JOURNAL OF TIANJIN UNIVERSITY SCIENCE AND TECHNOLOGY
2012年
12期
1051-1056
,共6页
杨光辉%张杰%曹建国%齐杰斌%曾伟%贾生晖
楊光輝%張傑%曹建國%齊傑斌%曾偉%賈生暉
양광휘%장걸%조건국%제걸빈%증위%가생휘
辊型配置%边降控制%冷连轧机%辊形%板形控制
輥型配置%邊降控製%冷連軋機%輥形%闆形控製
곤형배치%변강공제%랭련알궤%곤형%판형공제
roll configuration%edge drop control%tandem cold rolling mill%roll contour%shape control
针对某1,700,mm 宽带钢四辊冷连轧机在生产过程中易出现支持辊磨损严重且不均匀,轧机板形控制能力明显不足,第1、2架轧机的弯辊力经常达到最大值,带钢的边降控制波动较大等问题,采用大型有限元软件ANSYS9.0建立了轧机辊系与轧件一体化三维有限元仿真模型,研究了不同工况、不同辊型配置下的工作辊挠曲变形、带钢金属横向流动及工作辊和支持辊间的辊间接触压力分布等,对比分析并设计了用于带钢边降控制的辊型配置新方案,投入现场连续应用后,取得了比较明显的板形控制效果,带钢比例凸度由1.20降至1.05,板形平坦度由原来的15,IU降至9~10,IU,带钢两侧边降同时达到7,μm以内的比率为92.7%.
針對某1,700,mm 寬帶鋼四輥冷連軋機在生產過程中易齣現支持輥磨損嚴重且不均勻,軋機闆形控製能力明顯不足,第1、2架軋機的彎輥力經常達到最大值,帶鋼的邊降控製波動較大等問題,採用大型有限元軟件ANSYS9.0建立瞭軋機輥繫與軋件一體化三維有限元倣真模型,研究瞭不同工況、不同輥型配置下的工作輥撓麯變形、帶鋼金屬橫嚮流動及工作輥和支持輥間的輥間接觸壓力分佈等,對比分析併設計瞭用于帶鋼邊降控製的輥型配置新方案,投入現場連續應用後,取得瞭比較明顯的闆形控製效果,帶鋼比例凸度由1.20降至1.05,闆形平坦度由原來的15,IU降至9~10,IU,帶鋼兩側邊降同時達到7,μm以內的比率為92.7%.
침대모1,700,mm 관대강사곤랭련알궤재생산과정중역출현지지곤마손엄중차불균균,알궤판형공제능력명현불족,제1、2가알궤적만곤력경상체도최대치,대강적변강공제파동교대등문제,채용대형유한원연건ANSYS9.0건립료알궤곤계여알건일체화삼유유한원방진모형,연구료불동공황、불동곤형배치하적공작곤뇨곡변형、대강금속횡향류동급공작곤화지지곤간적곤간접촉압력분포등,대비분석병설계료용우대강변강공제적곤형배치신방안,투입현장련속응용후,취득료비교명현적판형공제효과,대강비례철도유1.20강지1.05,판형평탄도유원래적15,IU강지9~10,IU,대강량측변강동시체도7,μm이내적비솔위92.7%.
The 1,700 mm 4-hi tandem cold rolling mills of wide strip have some problems during the production, such as non-uniformity and severity of roll wearing,insufficient ability of mill shape control,often-used maximum bending force and unstable edge drop control. To solve these problems,a 3D finite element model including roll sys-tem and strip was built using the software ANSYS9. 0. Work roll flexion,transverse medal flowing of strip and the contacting force distribution between work roll and backup roll under different working conditions and different roll configurations were analyzed with the model,and a new project of roll configuration was designed for the edge drop control of strip. With the project applied to mills,a remarkable control effect of strip shape is achieved,the propor-tional crown of strip is reduced from 1.20 to 1.05,the strip flatness is reduced from 15 IU to 9—10 IU,and the ratio of the strip edge drops of both sides within 7 μm reaches 92.7%.
