Author:
Wan Tao,Fang Jun,Shang Wenxuan,Wang Kelu,Lu Shiqiang
Abstract
Abstract
To enhance the quality of tube bending with a small bending radius, a three-dimensional finite element (FE) model was developed to simulate numerically controlled (NC) bending of stainless steel tubes made from 21-6-9 alloy. Subsequently, an analysis was conducted to examine the influence of mandrel parameters on the forming quality in terms of the rate of wall thickening, rate of wall thinning, and ovality of cross-section. The findings indicate that increasing the mandrel axial feed or mandrel diameter leads to a slight decrease in wall thickening rate, a noticeable increase in wall thinning rate, and a significant reduction in cross-section ovality. Optimal values for the mandrel axial feed and mandrel diameter are determined to be 0.5 mm-1.5 mm and 5.23 mm-5.43 mm, respectively. These results have important implications for guiding the design of mandrel parameters and enhancing the forming quality of NC bending for stainless steel tubes made from 21-6-9 alloy with a small bending radius.
Reference9 articles.
1. Influence of axial feed of mandrel on NC bending forming quality of 0Cr21Ni6Mn9N stainless steel tube;Xu;Forg. Stamp. Technol.,2014
2. Impact of the mandrel on the NC precision bending process for the thin-walled tube;Li;Int. J. Mach. Tool. Manuf.,2007
3. Experimental research on alterations in wall thickness for NC bending of large diameter thin-walled 6061-T4 tubes;Tian;Mater. Sci. Technol.,2012
4. Investigation on the impact of mandrel usage on the cross-sectional integrity during numerical control bending procedure for small diameter stainless steel 2169 tubes;Fang;Adv. Mater. Sci. Eng.,2013
5. Numerical modeling of the influence of mandrel on spring-back behavior in rotary-draw bending process for rectangular aluminum alloy tubes;Shen;Mater. Sci. Technol.,2012