新一代高速线材核心装备技术的研究与开发
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摘要
分析了高速线材轧制装备技术的现状及发展趋势,对传统的集中传动与前沿的独立传动线材高速轧制工艺装备技术进行了对比分析,并针对机组传动型式、孔型设计、速降及微张力、控制冷却模型及机组模态等问题进行了分析和研究。提出了基于双模块的独立传动高速线材生产装备技术,创新性地开发了以独立双模块为主要技术特色的新一代高速线材核心装备技术,简化了设备结构,提高了高速线材生产的灵活性,并降低了生产能耗及投资成本。
The present situation and development trend of high speed wire equipment technology were analyzed.The high speed rolling technology and equipment technology for the traditional centralized transmission and front-end independent transmission wire were compared and analyzed.The transmission type,pass design,speed drop and micro-tension,the control cooling model and the mode of the unit were researched.The independent high speed wire rod production equipment technology based on double modules was put forward.A new generation high speed wire rod equipment technology with the independent dual module as the main technical characteristics was innovatively developed,which simplified the structure of equipment,improved the flexibility of high speed wire production and reduced the production energy consumption and investment costs.
The present situation and development trend of high speed wire equipment technology were analyzed.The high speed rolling technology and equipment technology for the traditional centralized transmission and front-end independent transmission wire were compared and analyzed.The transmission type,pass design,speed drop and micro-tension,the control cooling model and the mode of the unit were researched.The independent high speed wire rod production equipment technology based on double modules was put forward.A new generation high speed wire rod equipment technology with the independent dual module as the main technical characteristics was innovatively developed,which simplified the structure of equipment,improved the flexibility of high speed wire production and reduced the production energy consumption and investment costs.
引文
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[11]马靳江,周民,陈莹卷.线材减定径关键工艺装备技术的研究与开发[J].中国冶金,2018,28(10):62.
[2]彭兆丰,邓华容.我国长材轧制技术与装备的发展(四)[J].轧钢,2012,29(1):38.
[3]吴建华.高速线材生产技术的发展趋势[J].工程建设与设计,2005(5):46.
[4]周晓锋,刘战英.钒对20MnSi钢组织和CCT曲线的影响[J].钢铁研究,2006,34(5):10.
[5]程知松.棒线材生产工艺及装备的最新发展[N].世界金属导报,2016-10-11(B08).
[6]龚俊健,刘金兰.3种主流高线精轧机简介[J].轧钢,2012,29(6):46.
[7]周民,陈莹卷,闵建军,等.高速线材减定径多道次孔型轧制有限元分析及工艺参数优化[J].中国冶金,2014,24(3):4.
[8]高亦斌,刘月,刘战英.高速线材精轧机组的最小张力优化[J].中国冶金,2015,25(11):26.
[9]周民,陈莹卷,马靳江,等.宽展模型在高速线材轧制过程中的应用及进步[C]//2012年线棒材工艺技术、装备与应用学术研讨会论文集.北京:中国金属学会,中国金属学会高速线材轧机装备技术分会,2012:52.
[10]曹树卫.高速线材轧机轧制堆钢产生原因及对策[J].轧钢,2003,20(1):64.
[11]马靳江,周民,陈莹卷.线材减定径关键工艺装备技术的研究与开发[J].中国冶金,2018,28(10):62.
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