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Metal vapor micro-jet controls material redistribution in laser powder bed fusion additive manufacturing.


ABSTRACT: The results of detailed experiments and finite element modeling of metal micro-droplet motion associated with metal additive manufacturing (AM) processes are presented. Ultra high speed imaging of melt pool dynamics reveals that the dominant mechanism leading to micro-droplet ejection in a laser powder bed fusion AM is not from laser induced recoil pressure as is widely believed and found in laser welding processes, but rather from vapor driven entrainment of micro-particles by an ambient gas flow. The physics of droplet ejection under strong evaporative flow is described using simulations of the laser powder bed interactions to elucidate the experimental results. Hydrodynamic drag analysis is used to augment the single phase flow model and explain the entrainment phenomenon for 316?L stainless steel and Ti-6Al-4V powder layers. The relevance of vapor driven entrainment of metal micro-particles to similar fluid dynamic studies in other fields of science will be discussed.

SUBMITTER: Ly S 

PROVIDER: S-EPMC5481335 | biostudies-literature | 2017 Jun

REPOSITORIES: biostudies-literature

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Metal vapor micro-jet controls material redistribution in laser powder bed fusion additive manufacturing.

Ly Sonny S   Rubenchik Alexander M AM   Khairallah Saad A SA   Guss Gabe G   Matthews Manyalibo J MJ  

Scientific reports 20170622 1


The results of detailed experiments and finite element modeling of metal micro-droplet motion associated with metal additive manufacturing (AM) processes are presented. Ultra high speed imaging of melt pool dynamics reveals that the dominant mechanism leading to micro-droplet ejection in a laser powder bed fusion AM is not from laser induced recoil pressure as is widely believed and found in laser welding processes, but rather from vapor driven entrainment of micro-particles by an ambient gas fl  ...[more]

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