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JLA Vol:20 Iss:4 (Keyhole welding studies with a moderate-power, high-brightness fiber laser)

Authors:
R. T. Brown
Robert T. Brown, LLC, Technical Consulting, 74 South Farms Drive, Manchester, Connecticut 06040 and Department of Mechanical Engineering, University of Hartford, West Hartford, Connecticut


Bead-on-plate welding tests were performed using a 600 W fiber-delivered fiber laser. Uniform, high-aspect-ratio keyhole welds were observed in 1018 low-carbon steel, 1100 aluminum, and 304 stainless steel. The Rosenthal two-dimensional thermal model for a moving-line heat source was effective in predicting weld width for both partial-penetration and full-penetration welds. By setting the temperature at the perimeter of the keyhole equal to the vaporization temperature, this same model provided a first-order estimate of the weld depth for partial-penetration welds, as well. The two-dimensional model was used to calculate the steady-state temperature field associated with the welding process as well as the temporal thermal history of points in the weld pool and in the heat-affected zone next to the weld pool. A comparison of calculated weld-bead geometries with dimensions scaled from micrographs of bead cross sections showed reasonable agreement.

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