1) severe rolling
深度轧制
1.
Wear behavior of nanocrystallization of Armco ron treated by severe rolling(SR),conventionally rolling(CR) and annealed SR was in restigated in dry sliding and lubrication condition by a reciprocating tester,and plastic deformation properties of tested samples were studied using impacting and sound emission scratch tester.
利用往复摩擦磨损试验机研究了深度轧制纳米化纯铁及其退火态和普通轧态纯铁在干摩擦和油润滑下的磨损行为,采用冲击划痕法和声发射划痕法研究材料的塑性变形能力,并对纳米化影响纯铁磨损行为的原因进行初步探讨。
2) rolling temperature
轧制温度
1.
A model of regulation optimization control for thin gauge strip high-speed rolling of cold tandem mill was established,which was taken the rolling temperature of each stand as the target,and assured coiling temperature and rolling load under restriction.
根据薄带高速冷连轧生产的工艺特点,以各机架轧制温度相对均匀为目标,同时以保证终卷温度在设定范围内和各机架轧制负荷不超限为约束条件,建立了一套冷连轧机高速轧制的轧制规程优化控制模型,使用后效果较好。
2.
Using the mathematic model and the engineering log, the factors affecting the head thickness precision are analyzed and a conclusion that the rolling temperature is the main factor is got.
热轧带钢的厚度精度是产品质量的重要指标 ,文章结合数学模型和工程日志对生产中影响带钢头部厚度的原因进行了分析 ,得出轧制温度是影响厚度的主要原因。
3.
Study is made of the effect of rolling temperature and single-pass deformation rate on Kovar/Cu/Kovar laminates .
分析研究了轧制温度和单道次变形率对Kovar/Cu/Kovar层状复合材料制备的影响。
3) rolling speed
轧制速度
1.
The control policy of strip temperature is based on the fact of production and equipment,based on precise prediction of mathematic models to the temperature of strip in stands,strip temperature at exit of finish mill is effectively controlled through regulating rolling speed and flux of cooling water between stands.
基于带钢在机架间温度变化的精确预报模型,通过调节轧制速度或机架间冷却水流量,有效地将带钢温度控制到目标范围内。
2.
The influences of major rolling parameters such as rolling speed,rolling kilometre of working roll,even deformation resistance and etc.
针对冷连轧轧制过程的特点,将理论模型与实际数据相结合,通过大量的现场实测数据分析和回归计算,建立了一套实用的冷连轧轧机的摩擦系数模型,并将其应用于宝钢2030五机架冷连轧轧机的生产实践,同时定量地分析出轧制速度、工作辊轧制长度、平均变形抗力等主要轧制工艺参数对摩擦系数的影响,大大地提高了现场控制精度和产品质量。
3.
Due to the variation of rolling speed the film thickness of j ournal changed and the accuracy of gauge was affected accordingly.
板带轧机广泛应用全膜润滑的滑动轴承,由于在轧制过程中轧制速度的变化较大,由此产生动压轴承的膜厚变化,这必然对板厚精度产生影响。
4) rolling thickness
轧制厚度
5) rolling crown
轧制凸度
6) rolling velocity
轧制速度
1.
The maximum rolling velocity was obtained, which is crucial to promote efficiency and reduce consumption.
通过对轧制节奏的分析及对带钢力能参数的仿真 ,推导出最大轧制速度的计算模型和计算方法 ,在理论上给出了现场生产中最大轧制速度的参考值 ,这对于提高生产效率 ,减少损耗有重要的意
补充资料:板带轧制速度规程(见板带轧制规程设计)
板带轧制速度规程(见板带轧制规程设计)
speed schedule for plate and strip rolling
bandai zhazhi sudu guieheng板带轧制速度规程(speed seheduxe fo:plateand strip rolling)见板带札制规程设计。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条