The Influence of Mixed Powder Ageing on the Structural, Chemical, and Crystalline Morphological Properties of the PA12 Used to Manufacture Laser Sintering
Alejandro García Rodríguez, Edgar Espejo Mora, Marco Antonio Velasco Peña, Carlos Alberto Narváez Tovar

TL;DR
This study explores how repeated laser sintering cycles affect the properties of a recycled PA12 powder mixture, offering insights into improving 3D printing sustainability.
Contribution
The study reveals how repeated laser sintering affects thermal and structural properties of recycled PA12 powder, aiding sustainable additive manufacturing.
Findings
Repeated laser sintering increases melting temperature and crystallinity while decreasing crystallisation temperature.
Particle size distribution changes significantly after sintering, affecting flowability and packing density.
Crystal morphologies and particle shapes are strongly correlated, indicating structural interdependencies.
Abstract
This study investigated the effects of multiple laser sintering (LS) cycles on a polyamide 12 powder mixture of 70% recycled material and 30% virgin polymer. This research aimed to understand how repeated LS processing influences this specific powder mixture’s thermal and structural properties, which is crucial for optimising its performance in additive manufacturing applications. A thermal analysis revealed significant changes in the thermal behaviour of the powder over successive build cycles. Specifically, there was an observed increase in both the melting temperature and the crystallinity of the powder, alongside a notable decrease in the crystallisation temperature. These alterations suggest that the repeated LS cycles affect the thermal profiles and potentially enhance the material’s stability and usability in additive manufacturing processes. Additionally, a particle size…
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Taxonomy
TopicsAdditive Manufacturing Materials and Processes · Additive Manufacturing and 3D Printing Technologies · Manufacturing Process and Optimization
