The effect of laser beam wobbling mode in welding process for structural steels

被引：0

作者：

Sergey V. Kuryntsev

A. Kh. Gilmutdinov

机构：

[1] Kazan National Research Technical University named after A.N. Tupolev-KAI (KNRTU-KAI),

来源：

The International Journal of Advanced Manufacturing Technology | 2015年 / 81卷

关键词：

Wobbling beam trajectory; Fiber laser welding; Mechanical properties; Ductility; Microhardness; Computer tomography; Microstructure;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

A laser welding process using a 30-kW fiber laser with scanning mode optics is investigated in the paper. Welding is conducted in two ways: constant laser beam trajectory and wobbling trajectory with the use of lower speed and power. The main goal was to investigate the influence of the second wobbling laser welding pass on microstructure and mechanical properties of structural steel. The following parameters were monitored: visual control and mechanical properties (microhardness, three-point bend, and Charpy impact V-notch test); metallographic analysis and 2D and 3D computer tomography (CT) were also done. The results show that after the second welding pass, with wobbling trajectory of laser beam, middle and cap parts of the seam have a lower microhardness, in relation to the root part. It can be explained by annealing influence of the second wobbling pass at weld metal.

引用

页码：1683 / 1691

页数：8

共 66 条

[1]

Casalino G(2013)Laser-arc hybrid welding of wrought to selective laser molten stainless steel Int J Adv Manuf Technol 68 209-216

[2]

Campanelli SL(2010)Duplex stainless steel for bridges construction: comparison between SAW and Laser-GMA hybrid welding Weld World 5 2010-49

[3]

Ludovico AD(2011)Single-pass laser-GMA hybrid welding of 13.5 mm thick duplex stainless steel Weld World 55 39-58

[4]

Fersini M(2009)Thick plate CO Weld World 53 48-154

[5]

Sorrentino S(2010)-laser based hybrid welding of structural steels Int J Adv Manuf Technol 48 143-208

[6]

Zilli G(2014)Seam gap bridging of laser based processes for the welding of aluminium sheets for industrial applications Int J Adv Manuf Technol 74 199-202

[7]

Westin K(2014)Parameter optimization and mechanism of laser-arc hybrid welding of dissimilar Al alloy and stainless steel Adv Manuf 2 193-15

[8]

Stelling A(2009)Laser-based manufacturing concepts for efficient production of tailor welded sheet metals Prod Eng Res Dev 3 9-19

[9]

Gumenyuk JK(2003)Defect-free joining of zinc-coated steels by bifocal laser welding Weld Int 17 12-1473

[10]

Kristensen BJ(2013)Reduction mechanism of porosity in tandem twin-spot laser welding of stainless steel Int J Adv Manuf Technol 66 1467-1082

← 1 2 3 4 5 6 7 →