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Visco-elastic sintering kinetics in virgin and aged polymer powders

Juan E. Alvarez, Henk Snijder, Tom Vaneker, Hongyang Cheng, Anthony R. Thornton, Stefan Luding, Thomas Weinhart

2021Powder Technology14 citationsDOIOpen Access PDF

Abstract

This work provides a novel discrete element method (DEM) framework for modelling the visco-elastic sintering kinetics in virgin and aged polymer powders. The coalescence of particle pairs, over long times, is described by a combined three-stage model of the sintering process, where each stage is dominated by a different driving force: adhesive contact force, adhesive inter-surface force and surface tension. The proposed framework is implemented in MercuryDPM, an open-source package for discrete particle simulations. To quantitatively calibrate the particle-scale parameters, Bayesian filtering is used. Experimental data on Polystyrene (PS), Polyamide 12 (PA12), and PEEK powders, both virgin and aged, are analysed and confirm over a wide range of times the existence of the three distinct sintering mechanisms. In good agreement with the experimental observations, the estimation of sintering time is achieved with a significant accuracy compared to Frenkel's model. This study provides an efficient and reliable approach for future studies of strength evolution in powder-bed fusion processes.

Topics & Concepts

SinteringMaterials scienceCoalescence (physics)Composite materialParticle (ecology)Surface tensionDiscrete element methodSelective laser sinteringPolymerAdhesivePolystyreneMechanicsThermodynamicsAstrobiologyOceanographyLayer (electronics)GeologyPhysicsGranular flow and fluidized bedsPowder Metallurgy Techniques and MaterialsInjection Molding Process and Properties