Metal vaporization and its influence during laser powder bed fusion process

Laser powder bed fusion (LPBF) is a key metal additive manufacturing process and has attracted increasing attention both in academia and industry. An essential physical issue influencing LPBF is metal vaporization, and there has been much dispute regarding the occurrence and influence of metal vaporization during LPBF. The latest in-situ X-ray imaging results directly demonstrated the occurrence of massive vaporization based on the widespread presence of keyholes under typical LPBF conditions. In this study, a comprehensive review of metal vaporization during LPBF was conducted, in terms of its influence and underlying mechanism, as well as numerical simulations. Metal vaporization was found to be primarily dependent on the temperature of the melt pool and the surrounding atmosphere, and to substantially influence the transfer of energy, momentum, and mass during the process. Critical formation problems, such as powder denudation, plume, spatter, lack of fusion, and porosity were closely related to metal vaporization. An adequate energy input and optimized shielding atmosphere were found to be necessary to inhibit the negative influence of metal vaporization. Moreover, the vaporization by-products could be used for quality monitoring, and the vaporization loss of elements could be quantitatively adjusted to regulate the compositional distribution.(c) 2022 The Author(s). Published by Elsevier Ltd. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).