二次冷轧机组乳化液流量与浓度综合优化设定

崔亚亚,李柏阳,白振华,崔熙颖,李小峰,徐纪栓

钢铁 ›› 2018, Vol. 53 ›› Issue (2) : 40-44.

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钢铁 ›› 2018, Vol. 53 ›› Issue (2) : 40-44. DOI: 10.13228/j.boyuan.issn0449-749x.20170426
压力加工

二次冷轧机组乳化液流量与浓度综合优化设定

  • 崔亚亚1,李柏阳1,白振华1,2,崔熙颖1,李小峰1,徐纪栓1
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Comprehensive optimization setting of emulsion flowrate and concentration for double cold reduction mill

  • 崔亚亚1,李柏阳1,白振华1,2,崔熙颖1,李小峰1,徐纪栓1
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摘要

针对以往现场对于二次冷轧机组直喷系统润滑与油耗研究较少、乳化液流量与浓度分开设定、不能同时兼顾润滑性与油耗的问题,在充分结合二次冷轧机组直喷系统的设备与工艺特点的基础上,从油耗固定模式以及润滑保证模式入手,考虑到钢种与规格的影响,建立了相应的适合于二次冷轧直喷系统的乳化液流量与浓度综合优化设定技术,编制出了相应的乳化液流量与浓度综合优化设定软件,并将其应用到某钢厂1 220二次冷轧机组的生产实践,取得了良好的使用效果,具有进一步推广应用的价值。

Abstract

In light of the problems that researches on the lubrication and oil consumption of direct application system were very few in the double cold reduction mill,the emulsion flow and concentration were set separately,and therefore the lubricity and oil consumption could not be fulfilled simultaneously, the emulsion flowrate and concentration comprehensive optimization technology for direct application system of double cold reduction mill was developed with oil consumption fixed mode and lubricity assured mode based on the equipment and technological characteristics of the direct application system of the double cold reduction mill,which considers the steel grade and specifications. The corresponding software of emulsion flowrate and concentration comprehensive optimization technology was compiled and applied to the production practice of a 1 220 double cold reduction mill,which achieves good results,with further popularization and application value.

关键词

二次冷轧 / 直喷系统 / 乳化液 / 流量 / 浓度

Key words

double cold reduction / direct application system / emulsion / flowrate / concentration

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崔亚亚, 李柏阳, 白振华, . 二次冷轧机组乳化液流量与浓度综合优化设定[J]. 钢铁, 2018, 53(2): 40-44 https://doi.org/10.13228/j.boyuan.issn0449-749x.20170426
CUI Ya-Ya, LI Bai-Yang, BO Zhen-Hua, et al. Comprehensive optimization setting of emulsion flowrate and concentration for double cold reduction mill[J]. Iron and Steel, 2018, 53(2): 40-44 https://doi.org/10.13228/j.boyuan.issn0449-749x.20170426

参考文献

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基金

板带轧制过程复杂振动行为控制技术研究;超高强钢板表面形貌形成机理及其控制方法

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