共查询到19条相似文献,搜索用时 906 毫秒
1.
2.
3.
4.
文章在分析带钢热轧时跑偏原因的基础上,对带钢粗轧和精轧等过程中的跑偏提出了相应的控制措施,从而提高带钢轧制过程的稳定性,保证带钢产品质量。 相似文献
5.
6.
7.
8.
9.
10.
针对某1420冷连轧机启动轧制过程中张力不稳定并导致启动困难的问题,从工厂实际张力控制系统出发,运用连轧理论建立启动轧制阶段带钢张力变化的机理模型,导出张力静态偏差的表达式.分析了相关工艺因素及控制参素对带钢张力的影响.研究发现,采用单纯比例调节器对张力进行控制易导致张力波动;在不改变控制器类型的前提下,增大张力控制器的比例系数、减小S1机架的蠕动速度、减小各机架的轧制力,可以提高带钢张力的稳定性.研究结果作为技术对策已用于对某1420冷连轧机组启动轧制过程的优化调整,取得了很好的效果. 相似文献
11.
针对经常困扰热轧生产的粗轧板坯镰刀弯缺陷,本文结合弹跳方程和解析法,分析了引起板坯镰刀弯的主要因素——轧机两侧纵向刚度偏差、来料楔形及轧件运行走偏,分别计算了其对应的调整量,建立了基于轧机两侧轧制力差的镰刀弯调平控制模型.该模型可反映轧机两侧纵向刚度差、来料楔形及轧件运行走偏等主要因素与镰刀弯的定量关系,进而计算出控制镰刀弯的粗轧机各道次辊缝倾斜调整值.与现场实测值进行离线验证对比,实测值与计算值比值平均为0.977,结果表明镰刀弯调平模型能够预估板坯各道次辊缝倾斜调整值.将模型投入2250 mm热轧机组使用后,板坯镰刀弯弯曲量未达标率从24.88%下降到6.62%,提高了镰刀弯控制效果,使粗轧板坯镰刀弯问题得到了很大缓解. 相似文献
12.
粗轧过程中出现的轧辊两侧轴承间隙差异较大的情况,会造成轧辊交叉,导致板带两侧轧制力失衡,进而引起或加剧中间坯的镰刀弯缺陷,影响最终产品质量精度和后续精轧的轧制稳定性.为研究轧辊交叉对中间坯镰刀弯生成过程的影响,建立了轧辊交叉、偏移的轧件-辊系耦合动态有限元模型,利用模型分析了不同工况条件下,轧辊交叉位置、交叉角度对中间坯楔形、弯曲量及两侧轧制力差的影响,进而总结了由轴承间隙引起的轧辊非对称交叉对中间坯镰刀弯弯曲量的影响规律.结果表明:镰刀弯弯曲量与交叉角、交叉位置比分别呈线性关系,与辊系间隙比呈二次曲线关系. 相似文献
13.
In order to solve the camber problem of intermediate slab in a domestic conventional hot rolling mill, a three dimensional elastic-plastic dynamic model was built through finite element method to quantitatively calculate the influence of lateral flow factors in different entry thicknesses, reductions, reduction ratios differences on both sides and width factors. Thus, the extending difference at outlet of intermediate slab in length was transformed into thickness difference on both sides by the results, and then the tilting value of roll gap reduction to control the camber was calculated. Based on the above results, the camber control model of intermediate slab in rough rolling was estab- lished. The practical application on the rough rolling mill obtained a decent control effect, and it proved that this model had a high accuracy. 相似文献
14.
针对某2250常规热连轧产品的断面楔形问题进行研究,运用有限元法建立静态仿真模型,定量计算轧件跑偏和来料楔形遗传对热轧出口带钢断面楔度的影响,并通过实际生产数据的采集分析验证了模型计算结果的准确性。提出优化精轧立辊及侧导位的对中精度和开口度裕量,加强轧制过程对中性,并通过投用粗轧强力侧导位、优化粗轧工作辊辊形和加强手动调平控制改善粗轧来料楔形,使热连轧机组因楔形产生的板形三级品率从47%下降到10%以内,取得了明显的效果。 相似文献
15.
16.
《钢铁冶炼》2013,40(1):55-62
AbstractExperimental design techniques have been used to study the effects of variations in horizontal scale breaker process parameters in relation to camber generation during the early reduction stages in a hot strip mill. A fractional factorial experiment was designed and performed to identify which process variables are most influential to camber generation. The parameters which emerge from this analysis as being significant are: slab wedge, temperature differentials across the strip width, the deviation of the slab from the mill centreline, and mill tilt. A full factorial experiment was then designed and performed to further investigate these significant process parameters to determine where to set influential and controllable variables so that camber is minimised. The results show that none of the process parameters is significant to camber generation when acting alone; however, they are all significant when combined with one or two other process parameters. This study has enabled a predictive equation to be developed which is able to predict camber to within ±4 mm. This equation may be used in conjunction with mill tilting strategies to reduce camber in the early reduction stages of a hot strip mill. 相似文献
17.
根据热轧不锈钢工程设计中的经验总结并结合国内已建成的宽幅不锈钢生产厂的工艺设备情况,从轧线布置形式和主要设备技术性能方面分析了不锈钢热轧板带生产工艺及设备选型的主要特点,指出不锈钢热轧生产与碳钢生产在工艺设备选型方面的区别。认为采用R1+F1~F7的工艺布置方式,较为经济、实用。为保证生产过程中的温度控制和产品质量,宽幅不锈钢粗轧机轧制力宜选择在42 000 kN以上,主电机功率12 000 kW以上。中间坯保温方式宜采用热卷箱形式。精轧机组前应设置小立辊轧机对带坯进行边部轧制。 相似文献
18.
带钢热轧跑偏问题是影响带钢生产与板形质量的重要因素。轧制生产过程中,由于粗轧中间坯头部弯曲导致的精轧堆钢事故频发,不仅严重危害生产稳定性,还造成资源的严重浪费和企业的经济损失。为了解决上述问题,针对粗轧非对称板形影响因素,结合实测粗轧中间坯以及工艺过程数据,建立中间坯头部预控模型,并利用加权最小二乘法与模型自学习对模型增益系数进行优化,最终建立了基于粗轧镰刀弯的精轧跑偏预控模型。将模型计算值应用于现场生产后,有效降低了精轧带钢头部跑偏,具有较好的参考价值和指导意义。 相似文献