Effect of Au coating on joint strength in laser welding for Invar-Invar packages

“…These phenomena are due to the following reasons: with an increase in beam incident angle, the direction of the laser beam focus changes from outer to the inner tube and the fraction of inner tube material become larger with a consequent rise in thermal conductivity of the weld molten mass. As a result, shallower weld penetration depth and shorter weld resistance length are achieved as explained by Wang et al (1996).…”

Laser beam welding of dissimilar stainless steels in a fillet joint configuration

“…These phenomena are due to the following reasons: with an increase in beam incident angle, the direction of the laser beam focus changes from outer to the inner tube and the fraction of inner tube material become larger with a consequent rise in thermal conductivity of the weld molten mass. As a result, shallower weld penetration depth and shorter weld resistance length are achieved as explained by Wang et al (1996).…”

Laser beam welding of dissimilar stainless steels in a fillet joint configuration

“…The material used is invar, to benefit from the low coefficient of thermal expansion (CTE) and therefore suitable for optoelectronic packaging [32]. The minimum CTE of the used invar alloy, which contains 64% Fe and 36% Ni, at room temperature (6) are mounted in a V-groove substrate (7) and the four lensed fiber ends are mounted in four separated "cross shaped" adjust frames (2), thereby enabling individual positioning of the fiber tips.…”

Lensed Fiber-Array Assembly With Individual Fiber Fine Positioning in the Submicrometer Range

Characterization of Kovar-to-Kovar laser welded joints and its mechanical strength