اختيار نظام لحام صفائح من النيكل بالليزر وتأثير بارامترات هذا النظام في أبعاد الدرزات اللحامية الناتجة

The effect of Laser welding system’s parameters on the dimensions of Nickel welded joint with thickness not more than (1.0 mm) was studied. The principal parameters of impulsed Laser in this case , which had influence on the welded spot’s dimensions ( spot’s diameter D & penetration h ) , are : the power of Laser beam , impulse time & the focusing distance of Laser beam to the welded joint. It was resulted that the values of dimension ( h ) increased (with high accelerating ) by the increasing of Laser beam’s power & impulse time & the decreasing of focusing distance , but the values of dimension D increased very slowly by the changes of above – mentioned parameters , and as result the values of melting form’s coefficient (Ψ = D / h ) decreased & reached the minimum when the melting penetration was about 1.0 mm ( the thiclness of Nickel plate ) .The micro-structure studying of cross sections in the welded joints showed that if the power of Laser beam was so high that the tmperature of welded spot was so high than the meting point of welded metal, the latest one obsorbed a lot of gases from the surrounded atmosphere and variuos defects were noticed in this weld metal. So, it’s too important to use a sheilding gas ( like Argon ) to improve the reaction of these gases with the weld metal .