为了缩短双安装板结构的TC4合金低压第二级静子叶片精锻工艺流程,并得到更优的金相组织、力学性能,首次将等温锻造方法引入叶片精锻工艺中,采用一火次等温预锻代替两火次普通预锻.利用刚粘塑性有限元法模拟等温预锻过程,分析了金属流动规律、应变场等的变化情况.结果表明,所成形的等温预锻件应力较低、应变分布比较均匀.经叶片成形工艺试验,得到了采用等温预锻的叶片精锻件,将采用普通预锻的叶片精锻件与之对比,发现采用等温预锻的叶片较采用普通预锻的叶片金相组织均匀性好,而两者的力学性能相当.
参考文献
[1] | 谭杰巍;许日泽;刘侠夫.叶片精锻[M].北京:国防出版社,1984 |
[2] | 张志文.叶片锻造[M].西安:西安交通大学出版社,1987 |
[3] | 钟杰,胡楚江,郭成.叶片精密锻造技术的发展现状及其展望[J].锻压技术,2008(01):1-5. |
[4] | 王忠雷,赵国群.精密锻造技术的研究现状及发展趋势[J].精密成形工程,2009(01):32-38,83. |
[5] | LU B;OU H;ARMSTRONG C G.Net shape forging of aerofoil blade based on flash trimming and compensation methods[A].,2011:1677-1682. |
[6] | B. Lu;H. Ou;C.G. Armstrong;A. Rennie .3D die shape optimisation for net-shape forging of aerofoil blades[J].Materials & Design,2009(7):2490-2500. |
[7] | SHAO Y;LU B;OU H G;CUI Z S.Preform design optimization for forging process based on the topological approach[A].,2013:484-490. |
[8] | YANG H;ZHAN M;LIU Y L .A 3D rigid-viseoplastic FEM simulation of the isothermal precision forging of a blade with a damper platform[J].Journal of Materials Processing Technology,2002,122:45-50. |
[9] | Gao Tao;Yang He;Liu Yuli .Influence of dynamic boundary conditions on preform design for deformation uniformity in backward simulation[J].Journal of Materials Processing Technology,2008(1-3):255-260. |
[10] | Qi G X;MEI R B;WANG F;BAO L .Numerical simulation of microstructure evolution of TC6 alloy blade during finish forging[J].Advanced Materials Research,2011,314-316:405-408. |
[11] | 高涛,杨合,刘郁丽.面向钛合金叶片精锻变形均匀预成形设计的三维有限元反向模拟[J].稀有金属材料与工程,2012(04):640-644. |
[12] | Debin Shan;Wenchen Xu;Xiuzhu Han .Study on isothermal precision forging process of rare earth intensifying magnesium alloy[J].Materials Science & Engineering, B. Solid-State Materials for Advanced Technology,2012(19):1698-1702. |
[13] | C.3.菲格林;等;薛永春;刘建宇.金属等温变形工艺[M].北京:国防工业出版社,1982 |
[14] | 王芝英;邵仁兴.钛合金等温锻造进展[J].锻压技术,1997(01):12-18. |
[15] | 董俊哲,李付国,肖美立,汪程鹏.TC4钛合金叶片等温成形多塑性变形机制模拟分析[J].锻压技术,2013(01):159-164. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%