Design, fabrication, mechanical, and evaluation of 3D printed ZrO reinforced polylactide scaffolds through fused deposition modeling
The design and fabrication of 3D-printed polylactide/ZrO 2 composites through fused deposition modelling (FDM) based approach is illustrated in the present study. ZrO 2 synthesized through the sol-gel technique and the commercially procured polylactide (PLA) were used as the source for the extrusion...
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| Published in | Materials chemistry frontiers Vol. 7; no. 3; pp. 464 - 475 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Published |
30.01.2023
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| Online Access | Get full text |
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| Abstract | The design and fabrication of 3D-printed polylactide/ZrO
2
composites through fused deposition modelling (FDM) based approach is illustrated in the present study. ZrO
2
synthesized through the sol-gel technique and the commercially procured polylactide (PLA) were used as the source for the extrusion of composite filaments, followed by their 3D printing through FDM methodology. The results from the investigation ensured a maximum of 20 wt% ZrO
2
loading in PLA matrix for a facile and smooth extrusion of filaments and their subsequent defect-free 3D printing of desired shape and geometry. The structural analysis of the 3D printed specimens revealed the phase stability of PLA and ZrO
2
in composites and the morphological studies ensured the uniform dispersion of ZrO
2
particles throughout the PLA matrix. Moreover, the pattern of infill thickness in the 3D-printed specimen is determined as 400 μm, which implied better consistency with the 0.4 mm dimension sized printer nozzle utilized for printing. A gradual reduction in the mechanical strength of PLA/ZrO
2
composite as a function of enhanced ZrO
2
content is deliberated. The results from
in vitro
tests revealed the negligible cytotoxicity displayed by the 3D-printed PLA/ZrO
2
composite specimens.
FDM approach to build defect-free and intricate shapes of 3D printed ZrO
2
based PLA composites. |
|---|---|
| AbstractList | The design and fabrication of 3D-printed polylactide/ZrO
2
composites through fused deposition modelling (FDM) based approach is illustrated in the present study. ZrO
2
synthesized through the sol-gel technique and the commercially procured polylactide (PLA) were used as the source for the extrusion of composite filaments, followed by their 3D printing through FDM methodology. The results from the investigation ensured a maximum of 20 wt% ZrO
2
loading in PLA matrix for a facile and smooth extrusion of filaments and their subsequent defect-free 3D printing of desired shape and geometry. The structural analysis of the 3D printed specimens revealed the phase stability of PLA and ZrO
2
in composites and the morphological studies ensured the uniform dispersion of ZrO
2
particles throughout the PLA matrix. Moreover, the pattern of infill thickness in the 3D-printed specimen is determined as 400 μm, which implied better consistency with the 0.4 mm dimension sized printer nozzle utilized for printing. A gradual reduction in the mechanical strength of PLA/ZrO
2
composite as a function of enhanced ZrO
2
content is deliberated. The results from
in vitro
tests revealed the negligible cytotoxicity displayed by the 3D-printed PLA/ZrO
2
composite specimens.
FDM approach to build defect-free and intricate shapes of 3D printed ZrO
2
based PLA composites. |
| Author | Saha, Sunjeet Alam, M. Mushtaq Ezhilan, M Kannan, S Gopan, Gopika Mani, Maheswaran |
| AuthorAffiliation | Pondicherry University Department of Microbiology Centre for Nanoscience and Technology |
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| Snippet | The design and fabrication of 3D-printed polylactide/ZrO
2
composites through fused deposition modelling (FDM) based approach is illustrated in the present... |
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| StartPage | 464 |
| Title | Design, fabrication, mechanical, and evaluation of 3D printed ZrO reinforced polylactide scaffolds through fused deposition modeling |
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