采用热-弹塑性三维有限元法研究激光熔透焊接Ti6Al4V合金的残余应力,并采用小孔法测量焊接残余应力以和计算结果进行比较.有限元计算时,建立了以焊缝形貌尺寸为参数的统一锥形热源模型来模拟不同热输入时的焊接温度场,并讨论了边界条件和有限元网格大小的确定.研究结果表明:采用焊缝轮廓尺寸作为热源参数能准确模拟焊缝横截面轮廓;钛合金激光熔透焊接的纵向残余应力分布梯度陡;在焊件表面和内部残余应力分布趋势不同,采用小孔法测量的残余应力分布和计算的焊接件内部残余应力分布相似.
ulated ones in the interior of the welding seam.
参考文献
| [1] | Carmignani C;Mares R;Toselli G .[J].Computer Methods in Applied Mechanics and Engineer,1999,179(12):197. |
| [2] | Tsirkas S A;Papanikos P;Kermanidis Th .[J].Journal of Materials Processing Technology,2003,134(01):59. |
| [3] | Luo X;Shinozaki K;Kuroki H et al.[J].Welding International,2002,16(05):385. |
| [4] | Ferro P;Bonollo F;Tiziani A .[J].Science and Technolngy of Welding and Joining,2005,10(03):299. |
| [5] | Chang W S;Na S J .[J].Journal of Materials Processing Technology,2002,120(1-3):208. |
| [6] | Tsirkas S A;Papanikos P;Pericleous K et al.[J].Science and Technolngy of Welding and Joining,2003,8(02):79. |
| [7] | Zhang L J;Zhang J X;Kalaoui H et al.[J].Journal of Materials Processing Technology,2007,190(1-3):109. |
| [8] | Zhang J X;Xue Y;Gong S L .[J].Science and Technolngy of Welding and Joining,2005,10(06):643. |
| [9] | Darcout C;Roelandt J M;Rachik M et al.[J].Journal De Physique IV,2004,120:785. |
| [10] | Lundb(a)ck A;Runnemalm H .[J].Science and Technolngy of Welding and Joining,2005,10(06):717. |
| [11] | Frewin M R;Scott D A .[J].Welding Journal,1999,78(01):15. |
| [12] | Bonollo F;Tiziani A;Zambon A .[J].Materials Science and Technology,1993,9(12):1137. |
| [13] | Li J;Guan Q;Shi Y W et al.[J].Science and Technology of Welding and Joining,2004,9(05):451. |
| [14] | Cho J R;Roberts S M;Reed R C .[J].Proceedings of SPIE,2003,4831:192. |
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%