With　the　advantages　of　high　energy　density,　high　flexibility,　and　good　material　adaptability,　lasers　have　been　used　to　transfer　droplets　to　the　molten　pool　in　the　welding　and　additive　manufacturing　fields.　In　this　study,　a　laser-assisted　droplet　transfer　process　was　simulated　using　COMSOL　Multiphysics　software.　Based　on　the　angular　impulse　physical　model,　the　effects　of　incidence　position　and　laser　power　on　the　shape,　spatter,　and　detachment　direction　of　a　droplet　were　predicted　and　analyzed.　The　droplet　detached　from　the　wire　tip　when　the　laser　beam　was　irradiated　at　the　solid-liquid　interface　under　a　laser　power　of　1200　W　and　a　pulse　width　of　10　ms.　When　the　power　was　1400　W,　the　droplet　exhibited　a　regular　shape　and　little　spatter.　The　droplet　detached　along　the　laser　incidence　direction,　in　accordance　with　the　desired　direction　of　laser-assisted　droplet　transfer.