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Optimization of selective laser sintering process conditions using stable sintering region approach

Federico Lupone, Elisa Padovano, Mario Pietroluongo, Sandra Giudice, Oxana Ostrovskaya, Claudio Francesco Badini

2020eXPRESS Polymer Letters38 citationsDOIOpen Access PDF

Abstract

The optimization of process parameters represents one of the major drawbacks of selective laser sintering (SLS) technology since it is largely empirical and based on performing a series of trial-and-error builds. This approach is time consuming, costly, and it ignores the properties of starting powders. This paper provides new results into the prediction of processing conditions starting from the material properties. The stable sintering region (SSR) approach has been applied to two different polymer-based powders: a polyamide 12 filled with chopped carbon fibers and polypropylene. This study shows that the laser exposure parameters suitable for successful sintering are in a range that is significantly smaller than the SSR. For both powders, the best combination of mechanical properties, dimensional accuracy, and porosity level are in fact, achieved by using laser energy density values placed in the middle of the SSR.

Topics & Concepts

Selective laser sinteringMaterials scienceSinteringPorosityPolypropylenePolyamideComposite materialLaserProcess (computing)PolymerProcess engineeringComputer scienceOpticsEngineeringOperating systemPhysicsAdditive Manufacturing and 3D Printing TechnologiesManufacturing Process and OptimizationAdditive Manufacturing Materials and Processes
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