Indexed by: Journal paper

Journal: Polymers

Included Journals: SCI

Discipline: Engineering

First-Level Discipline: Mechanical Engineering

Document Type: J

Volume: 14

Issue: 12

Key Words: powder spreading; short fiber; packing quality; roller rotation pattern; discrete element method; selective laser sintering

DOI number: 10.3390/polym14122345

Date of Publication: 2022-06-09

Impact Factor: 4.967

Abstract: In this study, for the first time, a forward-rotating roller is proposed for the spreading of CF/PA12 composite powder in the selective laser sintering (SLS) process. The mesoscopic kinetic mechanism of composite particle spreading is investigated by utilizing the “multi-spherical” element within the discrete element method (DEM). The commercial software EDEM and the open-source DEM particle simulation code LIGGGHTS-PUBLIC are used for the simulations in this work. It is found that the forward-rotating roller produces a strong compaction on the powder pile than does the conventional counter-rotating roller, thus increasing the coordination number and mass flow rate of the particle flow, which significantly improves the powder bed quality. In addition, the forward-rotating pattern generates a braking friction force on the particles in the opposite direction to their spread, which affects the particle dynamics and deposition process. Therefore, appropriately increasing the roller rotation speed to make this force comparable to the roller dragging force could result in faster deposition of the composite particles to form a stable powder bed. This mechanism allows the forward-rotating roller to maintain a good powder bed quality, even at a high spreading speed, thus providing greater potential for the industry to improve the spreading efficiency of the SLS process.

Links to published journals: https://www.mdpi.com/2073-4360/14/12/2345/htm