林姚辰,曾元松,吴为,等.基于模具创新设计的高强钛管小半径加热绕弯扁化控制[J].精密成形工程,2022,14(1):95-100.
LIN Yao-chen,ZENG Yuan-song,WU Wei,et al.Control of Sectional Flattening in Heat-Assisted Rotary Draw Bending of High- Strength Titanium Tubes with Small-Radius Based on Innovative Design of Die[J].Journal of Netshape Forming Engineering,2022,14(1):95-100. |
| 基于模具创新设计的高强钛管小半径加热绕弯扁化控制 |
| Control of Sectional Flattening in Heat-Assisted Rotary Draw Bending of High- Strength Titanium Tubes with Small-Radius Based on Innovative Design of Die |
| 投稿时间:2021-07-18 |
| DOI:10.3969/j.issn.1674-6457.2022.01.011 |
| 中文关键词: 管材加热绕弯成形 截面扁化 反变形压力模 勺形芯模 柔性芯模 |
| 英文关键词: rotary draw bending of heat-assisted tube sectional flattening anti-deformation pressure die spoon-shape mandrel flexible mandrel |
| 基金项目:国家自然科学基金(51522509) |
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| 摘要点击次数: 2018 |
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| 中文摘要: |
| 目的 发展小直径高强钛管小弯曲半径(R=1.5D)加热弯曲成形的截面扁化缺陷控制技术。方法 基于对管材弯曲前预变形和弯曲过程中施加有效约束的原理,设计变曲率型腔的反变形压力模结构、勺形芯模结构和带芯球的柔性芯模结构,结合有限元仿真分析,研究探索不同模具结构设计对弯管截面扁化的影响。结果 与“压力模+圆形芯棒”模具组合相比,使用反变形压力模可以将最大截面扁化率降低9%~21%;与传统模具组合下的最优扁化率(6.19%)相比,反变形压力模结合勺形芯模和带芯球的芯模可进一步将扁化率降低24%~33%,最优扁化率为3.9%。结论 反变形压力模和勺形芯模带芯球的芯模相结合的模具结构设计,有效解决了小直径高强钛管小弯曲半径成形的截面扁化问题,将扁化率控制在4%以内。 |
| 英文摘要: |
| The work aims to develop an effective strategy to control the severe sectional flattening defect in heat-assisted tight-radius (R=1.5D) bending process for small-diameter high-strength titanium tubes. Based on the principle of pre-deformation before bending together with tooling constraints during bending, the anti-deformation pressure die with a varying cavity, the spoon-shape mandrel, and the mandrel with a flexible ball were designed. The effects of different tooling structures on the sectional flattening were studied in combination with finite element simulation. Compared with the tooling of “pressure die + circular mandrel”, using anti-deformation pressure die could reduce the maximum flattening degree by about 9%-21%. Compared with the best flattening degree of 6.19% obtained under conventional tooling, applying the anti-deformation pressure die in conjunction with the spoon-shape mandrel or mandrel with a flexible ball could decrease the flattening degree by about 24%-33%, achieving a very low flattening degree of 3.9%. The die structure design combining anti-deformation pressure die and the spoon-shape mandrel or mandrel with a flexible ball effectively solves the flattening defects and controls the rate of flattening within 4%. |
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