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确定一种市售的3D打印工艺,该工艺能使退火和高压灭菌后的模型变形最小化,以及蒸汽灭菌对机械强度的影响。

Identifying a commercially-available 3D printing process that minimizes model distortion after annealing and autoclaving and the effect of steam sterilization on mechanical strength.

作者信息

Chen Joshua V, Tanaka Kara S, Dang Alan B C, Dang Alexis

机构信息

Department of Orthopaedic Surgery, University of California, San Francisco, CA, USA.

Department of Surgery, Orthopaedic Section, San Francisco VA Health Care System, San Francisco, CA, USA.

出版信息

3D Print Med. 2020 Apr 15;6(1):9. doi: 10.1186/s41205-020-00062-9.

DOI:10.1186/s41205-020-00062-9
PMID:32297041
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7161250/
Abstract

BACKGROUND

Fused deposition modeling 3D printing is used in medicine for diverse purposes such as creating patient-specific anatomical models and surgical instruments. For use in the sterile surgical field, it is necessary to understand the mechanical behavior of these prints across 3D printing materials and after autoclaving. It has been previously understood that steam sterilization weakens polylactic acid, however, annealing heat treatment of polylactic acid increases its crystallinity and mechanical strength. We aim to identify an optimal and commercially available 3D printing process that minimizes distortion after annealing and autoclaving and to quantify mechanical strength after these interventions.

METHODS

Thirty millimeters cubes with four different infill geometries were 3D printed and subjected to hot water-bath annealing then immediate autoclaving. Seven commercially available 3D printing materials were tested to understand their mechanical behavior after intervention. The dimensions in the X, Y, and Z axes were measured before and after annealing, and again after subsequent autoclaving. Standard and strength-optimized Army-Navy retractor designs were printed using the 3D printing material and infill geometry that deformed the least. These retractors were subjected to annealing and autoclaving interventions and tested for differences in mechanical strength.

RESULTS

For both the annealing and subsequent autoclaving intervention, the material and infill geometry that deformed the least, respectively, was Essentium PLA Gray and "grid". Standard retractors without intervention failed at 95 N +/- 2.4 N. Annealed retractors failed at 127.3 N +/- 10 N. Autoclave only retractors failed at 15.7 N +/- 1.4 N. Annealed then autoclaved retractors failed at 19.8 N +/- 3.1 N. Strength-optimized retractors, after the annealing then autoclaving intervention, failed at 164.8 N +/- 12.5 N.

CONCLUSION

For 30 mm cubes, the 3D printing material and infill geometry that deformed the least, respectively, was Essentium PLA and "grid". Hot water-bath annealing results in increased 3D printed model strength, however autoclaving 3D prints markedly diminishes strength. Strength-optimized 3D printed PLA Army-Navy retractors overcome the strength limitation due to autoclaving.

摘要

背景

熔融沉积建模3D打印在医学领域有多种用途,如创建患者特异性解剖模型和手术器械。为了在无菌手术领域使用,有必要了解这些打印件在不同3D打印材料以及高压灭菌后的力学行为。此前已经了解到蒸汽灭菌会削弱聚乳酸,然而,聚乳酸的退火热处理会增加其结晶度和机械强度。我们旨在确定一种最佳且可商购的3D打印工艺,该工艺能使退火和高压灭菌后的变形最小化,并量化这些干预后的机械强度。

方法

对具有四种不同填充几何形状的30毫米立方体进行3D打印,然后进行热水浴退火,接着立即进行高压灭菌。测试了七种可商购的3D打印材料,以了解它们在干预后的力学行为。在退火前后以及随后的高压灭菌后测量X、Y和Z轴的尺寸。使用变形最小的3D打印材料和填充几何形状打印标准和强度优化的海军陆战队牵开器设计。对这些牵开器进行退火和高压灭菌干预,并测试其机械强度的差异。

结果

对于退火和随后的高压灭菌干预,变形最小的材料和填充几何形状分别是Essentium PLA Gray和“网格”。未干预的标准牵开器在95 N±2.4 N时失效。退火后的牵开器在127.3 N±10 N时失效。仅经过高压灭菌的牵开器在15.7 N±1.4 N时失效。先退火然后高压灭菌的牵开器在19.8 N±3.1 N时失效。经过退火然后高压灭菌干预后的强度优化牵开器在164.8 N±12.5 N时失效。

结论

对于30毫米立方体,变形最小的3D打印材料和填充几何形状分别是Essentium PLA和“网格”。热水浴退火会提高3D打印模型的强度,然而对3D打印件进行高压灭菌会显著降低强度。强度优化的3D打印聚乳酸海军陆战队牵开器克服了高压灭菌导致的强度限制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/6ec297bd39ac/41205_2020_62_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/ba48d6abb9b6/41205_2020_62_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/ba0e93b0e547/41205_2020_62_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/0fc5882250ba/41205_2020_62_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/b3e1307ad7ec/41205_2020_62_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/6ec297bd39ac/41205_2020_62_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/ba48d6abb9b6/41205_2020_62_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/ba0e93b0e547/41205_2020_62_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/0fc5882250ba/41205_2020_62_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/b3e1307ad7ec/41205_2020_62_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7bd7/7161250/6ec297bd39ac/41205_2020_62_Fig5_HTML.jpg

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