压力容器2026,Vol.43Issue(2):12-26,15.DOI:10.3969/j.issn.1001-4837.2026.02.002
皮尔格冷轧工艺参数对S32750双相不锈钢管材成型的影响
Effect of Pilger cold rolling process parameters on the forming of S32750 duplex stainless steel pipes
摘要
Abstract
To address issues such as dimensional deviations,ovality,and uneven wall thickness that are prone to occur during the cold rolling forming of small-diameter thin-walled duplex stainless steel pipes,a finite element simulation method was employed to study the influence of Pilger cold rolling process parameters(rolling speed,rotation angle,and feed amount)on the forming dimensions of S32750 duplex stainless steel pipes.The results show that when the rolling speed is 70 cycles/min,the ovality and wall thickness unevenness of the pipe are significantly better than those at the other three speeds;among the four rotation angles,except for 60°,the other angles cause significant oval deformation in the pipe,resulting in poorer forming quality;however,at a 60° rotation angle,localized high deformation zones repeatedly appear in the sample,which may lead to uneven wall thickness;as the feed amount increases,the deviation of the pipe's forming dimensions from the target dimensions and its ovality gradually increase,and the forming quality decreases accordingly.Therefore,it is recommended that the combination of 70 cycles/min rolling speed,60° rotation angle,and 2 mm feed amount be adopted as the optimal process parameters.Through influence weight analysis,it was found that the feed amount has a greater impact on the ovality and outer diameter deviation of the pipe during cold rolling forming,while the rolling speed has a more significant influence on the wall thickness unevenness.The study provides theoretical guidance for the rolling production of small-diameter thin-walled duplex stainless steel pipes.关键词
双相不锈钢/皮尔格冷轧/有限元模拟/轧制参数/成型尺寸Key words
duplex stainless steel/Pilger cold rolling/finite element simulation/rolling parameters/forming dimensions分类
机械制造引用本文复制引用
李曰兵,翟可风,孙文强,朱屹成,闾川阳..皮尔格冷轧工艺参数对S32750双相不锈钢管材成型的影响[J].压力容器,2026,43(2):12-26,15.基金项目
国家自然科学基金项目(52375161,52105162) (52375161,52105162)
