Improving the Impact Resistance through Annealing in PLA 3D Printed Parts-Reference-Cited by-同舟云学术

Improving the Impact Resistance through Annealing in PLA 3D Printed Parts

Published:2023-10-13 Issue:5 Volume:13 Page:11768-11772
ISSN:1792-8036
Container-title:Engineering, Technology & Applied Science Research
language:
Short-container-title:Eng. Technol. Appl. Sci. Res.

Author:

Zisopol Dragos Gabriel,Portoaca Alexandra Ileana,Tanase Maria

Abstract

This study conducts an experimental exploration and thorough analysis of the influence of annealing on the impact resistance of PLA 3D-printed components. The investigation extends its scope to encompass the influence of printing parameters, specifically layer thickness and infill percentage. The research highlights that the impact resistance of annealed 3D printed PLA components is predominantly influenced by the infill percentage, with the highest impact energy observed at a full 100% infill. It is noticeable that the application of annealing post-processing heat treatment results in a remarkable, up to threefold, increase of the impact energy highlighting its potential efficacy as a viable technique for enhancing the mechanical integrity of PLA 3D printed products. Consequently, this study establishes annealing as a promising methodology, particularly for PLA 3D printing applications that encounter significant mechanical loads.

Publisher

Engineering, Technology & Applied Science Research

Subject

General Medicine

Reference27 articles.

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2. C. B. B. Luna, D. D. Siqueira, E. M. Araújo, and R. M. R. Wellen, "Annealing efficacy on PLA. Insights on mechanical, thermomechanical and crystallinity characters," MOMENTO, no. 62, pp. 1–17, Jan. 2021.

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