Pw. Fuerschbach et Mj. Cieslak, RESTRAINT EFFECTS IN LASER-WELDING OF AN ALUMINUM MMC, IEEE transactions on components, packaging, and manufacturing technology. Part B, Advanced packaging, 17(1), 1994, pp. 108-114
Laser beam welding (LBW) of an aluminum metal matrix composite (alloy
A40) with a low coefficient of thermal expansion has been investigated
. It was found that the cracking propensity of this alloy when laser w
elded is affected considerably by the restraint conditions at the weld
joint. A low restraint joint geometry was chosen that resulted in the
completion of crack free alloy A40 welds using the pulsed Nd:YAG LBW
process. In contrast, similarly processed welds made in a high restrai
nt weld joint were found to be cracked after welding. The cracks were
determined to be solid state cracks and no solidification cracking was
indicated. High restraint weld joints between alloy A40 and aluminum
alloys 6061 and 1100 were welded crack free. The absence of cracking h
ere was attributed to the high ductility of these alloys which can bet
ter accommodate the weld induced shrinkage strains than alloy A40 by i
tself. It was found that alloy A40 has good absorptivity with the low
continuous power CO2 LBW process, and that unlike pulsed laser welds i
n a high restraint joint geometry, that continuous power welds are cra
ck free.