2022
DOI: 10.1007/s00170-022-09253-6
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Mechanical properties and degradation of laser sintered structures of PLA microspheres obtained by dual beam laser sintering method

Abstract: This paper discusses the influence of process parameters on the degradation and the mechanical properties of laser-sintered polylactide (PLA) microspheres obtained using the novel dual beam laser sintering method (DBLS). DBLS is a technique developed by our team that is a modification of standard polymer laser sintering (pLS), with the potential to reduce polymer degradation during the process. The PLA microspheres were produced using the standard emulsion-solvent evaporation method. The laser sintering proces… Show more

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Cited by 5 publications
(2 citation statements)
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“…In the case of HG_OMs hydrogels, cumulative overlapped signals for moieties in the 1000–1650 cm −1 region were evidenced, confirming their composite formulation. Moreover, the embedding of OMs within the hydrogel matrix was evidenced by the modifications that occurred in C-H vibrations, which switched from a sharper double-humped aspect (due to intense symmetric and asymmetric vibrations of PLA-originating methyl side groups) [ 79 , 80 ] to a reduced-in-intensity broader band (due to predominant vibrational modes of aliphatic C–H from the hydrogel matrix) [ 81 , 82 ]. Hydrogel formation was confirmed for HG and HG_OMs samples through the presence of alginate-originating asymmetric vibrations of COO– (~1600 cm −1 ) involved in ionic bonding [ 83 , 84 ].…”
Section: Discussionmentioning
confidence: 99%
“…In the case of HG_OMs hydrogels, cumulative overlapped signals for moieties in the 1000–1650 cm −1 region were evidenced, confirming their composite formulation. Moreover, the embedding of OMs within the hydrogel matrix was evidenced by the modifications that occurred in C-H vibrations, which switched from a sharper double-humped aspect (due to intense symmetric and asymmetric vibrations of PLA-originating methyl side groups) [ 79 , 80 ] to a reduced-in-intensity broader band (due to predominant vibrational modes of aliphatic C–H from the hydrogel matrix) [ 81 , 82 ]. Hydrogel formation was confirmed for HG and HG_OMs samples through the presence of alginate-originating asymmetric vibrations of COO– (~1600 cm −1 ) involved in ionic bonding [ 83 , 84 ].…”
Section: Discussionmentioning
confidence: 99%
“…Different sintering conditions are required for different polymers. The sintering technologies of PLA‐based microsphere scaffolds mainly include high temperature 56,57 /laser sintering 58–60 (using the glass transition temperature [ Tg ] of the material) and solvent sintering (using solvents of different compositions). Yan et al used laser powder bed fusion technology to sinter PLA/nano‐HAP microspheres into microsphere scaffolds with good biocompatibility and osteogenicity 58 .…”
Section: Pla‐based Scaffold Manufacturing Technologymentioning
confidence: 99%