Abstract
This paper investigates the rim fragmentation of a millimeter-sized methyl-ethyl-ketone droplet imposed by the impact of different millijoule nanosecond laser beams. The physical mechanisms that determine the droplet deformation, expansion, and the evolution of the detached fragments from the rim are demonstrated, considering the influence of the laser beam energy. The key finding of our numerical study is the quantification of the evolution of fragments during the rim fragmentation process using a physically consistent multiscale framework.
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