聚乳酸通过酯交换进行升级再造用于立体光固化 3D 打印。

Poly(lactide) Upcycling Approach through Transesterification for Stereolithography 3D Printing.

机构信息

Institute of Materials Chemistry, Faculty of Chemistry, Brno University of Technology, 61200 Brno, Czech Republic.

Institute of Environmental Chemistry, Faculty of Chemistry, Brno University of Technology, 612 00 Brno, Czech Republic.

出版信息

Biomacromolecules. 2024 Oct 14;25(10):6645-6655. doi: 10.1021/acs.biomac.4c00840. Epub 2024 Oct 2.

DOI:10.1021/acs.biomac.4c00840

PMID:39359070

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11480983/

Abstract

The legislature determines the recycled and waste contents in fabrication processes to ensure more sustainable production. PLA's mechanical recycling and reuse are limited due to the performance decrease caused by thermal or hydrolytic instability. Our concept introduces an upcycling route involving PLA depolymerization using propylene glycol as a reactant, followed by the methacrylation, assuring the liquid systems' curability provided by radical polymerization. PLA-containing curable systems were studied from a rheological and thermomechanical viewpoint. The viscosity levels varied from 33 to 3911 mPa·s at 30 °C, giving a wide capability potential. The best system reached 2240 MPa storage modulus, 164.1 °C glass-transition temperature, and 145.6 °C heat-resistant index, competitive values to commercial systems. The printability was verified for all of the systems. Eventually, our concept led to SLA resin production containing PLA waste content up to 51 wt %.

摘要

立法机构确定制造过程中的回收和废物含量，以确保更可持续的生产。由于热或水解不稳定性导致性能下降，PLA 的机械回收和再利用受到限制。我们的概念引入了一种升级回收途径，涉及使用丙二醇作为反应物对 PLA 进行解聚，然后进行甲基丙烯酰化，确保液体体系可通过自由基聚合进行固化。从流变学和热机械的角度研究了含 PLA 的可固化体系。在 30°C 时，粘度从 33 到 3911 mPa·s 变化，具有广泛的性能潜力。最佳体系达到 2240 MPa 的储能模量、164.1°C 的玻璃化转变温度和 145.6°C 的耐热指数，与商业体系具有竞争力。所有体系的可印刷性均得到验证。最终，我们的概念导致生产含有高达 51wt%PLA 废料的 SLA 树脂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/adfe/11480983/db13d0748d9d/bm4c00840_0001.jpg

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聚乳酸通过酯交换进行升级再造用于立体光固化 3D 打印。

Poly(lactide) Upcycling Approach through Transesterification for Stereolithography 3D Printing.

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