Aluminum tailor welded blanks in the automotive industry continues to grow due to the light weight of aluminum itself and the characteristics of the tailor welded blanks. It has been found that welding of aluminum blanks with co2 laser is difficult but doable in a production environment and using high power CW Nd:YAG laser can obtain sound results with a much wider process parameter window. However, currently, high power CO2 lasers (in the range of 8 kW) are still the dominate laser sources in steel tailor welded blank companies in north America. Will these lasers be able to weld aluminum tailored blanks if the demand of aluminum tailor welded blanks increases? This study employed twin spot and beam shaping methods to weld 1mm combined with 2 mm tailored blanks using high power (9 kW maximum) CO2 laser for both 5754-O and 6111-T4 alloys. The results show that high power CO2 lasers can be used for welding 5754-O and 6111-T4 aluminum alloys with very precise parameter settings. However, using beam shaping is more critical than using twin spot for 1 mm thick aluminum blanks. But, once the correct parameters are applied for using beam shaping, the cup test results are better than using twin spot
High Power CO2 Laser Aluminum Tailored Blank Welding
Sae Technical Papers
International Body Engineering Conference & Exposition ; 1999
1999-09-28
Conference paper
English
Welding , Carbon dioxide , Aluminum alloys , Aluminum , Production , Alloys , Steel , Lasers
High power CO2 laser aluminum tailored blank welding
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