Laser impact welding application in joining aluminum to titanium

Wang, Huimin; Vivek, Anupam; Wang, Yuliang; Taber, G. A.; Daehn, Glenn S.

doi:10.2351/1.4946887

Cited by 35 publications

(17 citation statements)

References 13 publications

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“…This result is the same with the finding presented by Wang's research for the welding of aluminum and titanium [19]. One way that this phenomenon could be explained as follows: At the initial phase of bonding between Ti and Cu, the bonding strength of the weld interface is relatively low due to the low collision angle (below 8˝) between the hump and base plate.…”

Section: Microstructuresupporting

confidence: 79%

“…Springback can also be observed in the center of the weld spot as shown in Figure 4a; the area of the springback region increased when high pulse energy was used, as shown in Figure 4b. A similar phenomenon has been observed elsewhere [17,19]. The occurrence of the springback may be related to the effect of the reflected shockwave.…”

Section: Weld Examplesmentioning

confidence: 52%

“…Normally, two morphologies can be achieved-flat and wavy [14,[16][17][18][19]-when the LIW has happened. Generally, a wavy weld interface is expected because this interface can increase the bonding area and assist interlocking between two metal surfaces [14] as shown in Figure 6b,d.…”

Section: Microstructurementioning

confidence: 99%

“…Similar to the aforementioned research, wave interfaces were also observed. More recently, Wang et al [18,19] reported the welding of Al/Ti with LIW and did not observe intermetallic phases in the weld interface. [16]; (b) parallel welding [17].…”

Section: Introductionmentioning

confidence: 99%

“…A new laser impact spot welding (LISW) approach is presented and applied to join thin titanium foil to copper foil with a low laser energy system. The morphology of the weld spots was Two basic geometric configurations of the LIW process have been reported, including angle welding [14,16] and parallel welding [17][18][19] as shown in Figure 1. However, in the angle welding process, the collision angle is constructed by means of an experimental device as shown in Figure 1a, which makes the clamping of the flyer plate and the base plate complicated.…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Investigation on a Novel Laser Impact Spot Welding

Liu

Gao

Zhang

et al. 2016

Metals

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Abstract:In this paper a novel laser impact spot welding (LISW) method is described, in which a hump was formed on the flyer plate on the intended welding spot location by local pre-forming. When the flyer and base plates were placed together to perform welding, the two plates kept in contact over their entire surfaces except at the hump, where a local air gap was enough to guarantee the impact velocity and collision angle to achieve spot welding using laser pulse energy. The presented approach was implemented to join thin titanium foils to copper foils under low laser energy system. Joints with regular shapes were obtained. The microstructure in the weld interface was studied with scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS). It was found that the jetting occurred at the central region of the weld spots due to oblique impact. Wave features were observed in the weld interfaces. The impact energy was found to have significant influence on the wave's characteristics. Moreover, SEM images and EDS analysis did not show apparent element diffusion across the weld interface. Besides, the lap shearing test was used to characterize the mechanical properties of the spot welded joints.

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Section: Microstructuresupporting

confidence: 79%

Section: Weld Examplesmentioning

confidence: 52%