Comparative study on laser welding characteristics of aluminium alloy under atmospheric and subatmospheric pressures

Abstract

Laser bead on plate welding of 10 mm thick aluminium alloy under atmospheric and subatmospheric pressures were comparatively investigated. With the decrease of ambient pressure, the penetration depth increased sharply at first and then gradually levelled off. The largest penetration depth could reach 8·7 mm when welded under the pressures of 10¹ Pa, while only 4·9 mm under atmospheric pressure. Weld bead without any porosity was produced under ambient pressures of 10⁻¹ Pa. The average tensile strength of joints welded under the pressure of 10¹ Pa was 300·2 MPa. The tensile strength remained constant as the ambient pressure decreased further. The shielding effect of plasma plume on laser beam was suppressed as the ambient pressure decreased. Therefore, the laser power deposition inside the keyhole was enhanced effectively. Under subatmospheric pressure, the porosity defects were eliminated effectively due to the keyhole stability and the change of liquid flow, i.e. moving upward along the rear wall of keyhole.

Keywords:

• Subatmospheric laser welding
• Weld formation
• Porosity defects
• Tensile strength

Acknowledgements

The authors would like to thank the State Key Laboratory of Advanced Welding and Joining, Harbin Institute of Technology for providing the optical microscopy, scanning electron microscopy and materials testing system equipments. We also express our gratitude to Dr C. W. Tan and Dr Y. L. Zhang for valuable suggestions.