"Threshold laser beam irradiances for melting and welding" by Paul G. Sanders

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Article

Threshold laser beam irradiances for melting and welding

Journal of Laser Applications (2012)

Paul G. Sanders, Argonne National Laboratory
K. H. Leong, Argonne National Laboratory
H. K. Geyer, Argonne National Laboratory
K. R. Sabo, Argonne National Laboratory

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Abstract

A model based on the conservation of energy for a moving heat source incident on a flat plate is used to predict the threshold laser beam irradiance required to initiate melting on a metal surface. With the use of a non‐dimensional variable and its solution, the threshold irradiance can be predicted with the use of a simple equation. This equation is a function of the absorptivity of the surface, thermal conductivity of the metal, temperature increase for melting, diameter of the laser beam at the surface and the non‐dimensional variable value for the ratio of the thermal diffusivity of the metal to the product of the beam diameter and velocity used. Laser beam irradiances exceeding these predicted values are required for welding. The model predictions are validated with experimental results of beam irradiances required for welding different metals.

Keywords

laser,
Threshold irradiance,
laser beam welding

Disciplines

Materials Science and Engineering

Publication Date

August, 2012

DOI

10.2351/1.4745464

Publisher Statement

Citation Information

Paul G. Sanders, K. H. Leong, H. K. Geyer and K. R. Sabo. "Threshold laser beam irradiances for melting and welding" Journal of Laser Applications Vol. 9 Iss. 5 (2012) ISSN: 1938-1387
Available at: http://works.bepress.com/paul-sanders/39/