4.8 Article

Selective laser sintering and multi jet fusion: Process-induced modification of the raw materials and analyses of parts performance

Journal

ADDITIVE MANUFACTURING
Volume 27, Issue -, Pages 32-41

Publisher

ELSEVIER
DOI: 10.1016/j.addma.2019.02.004

Keywords

Selective laser sintering; Multi jet fusion; Polyamide 12; Mechanical properties; Area roughness parameter

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Additive manufacturing (AM) is a rapidly expanding framework of production technologies evolving in different directions, following the needs of different industries. Among powder bed fusion technologies, one of the main branches of AM, selective laser sintering (SLS) is the second oldest one. In the last few years, a direct rival has emerged: multi jet fusion (MJF). The purpose of this work is to compare these processes throughout a systematic analysis of powder and final parts made of commercially available polyamide 12 (PA12). Differences have been spotted both on the molecular and powder scale, with end capping of the MJF feedstock together with different thermal properties of the new and recycled materials. On the other hand, flowing properties are similar among the two virgin and recycled powders, with only a significant change in the fraction of fines for SLS material. The parts produced through SLS exhibit higher Young's modulus but lower elongation at break and ultimate tensile strength if compared to the ones obtained using MJF. This confirms once more that the occurrence of postcondensation has a profound influence on the final properties. Also Charpy impact strength according to ISO 179 has been tested, confirming the literature data for SLS, but also showing higher strength in the out-of-plane direction for un-notched specimens coming from MJF. Finally, the evaluation of advanced area roughness parameters such as surface roughness, skewness and kurtosis according to ISO 25178 allows the ascertainment of subtle differences arising in parts with different positioning on the build platform, possibly due to the inks employed in the MJF process.

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