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Photopolymerization-based 4D-printing of shape-memory materials containing high-performance polymers

High-performance aromatic heterochain polymers are engineering thermoplastics with exceptional mechanical and thermal properties that have attracted great interest in various areas ranging from aerospace to biomedicine. However, there have been a number of difficulties to 3D-print materials based on...

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Published in:	Reactive & functional polymers 2024-09, Vol.202, p.106001, Article 106001
Main Authors:	Nikishina, Alena N., Kholkhoev, Bato Ch, Bardakova, Kseniia N., Matveev, Zakhar A., Kurdanova, Zhanna I., Shakhmurzova, Kamila T., Zhansitov, Azamat A., Khashirova, Svetlana Yu, Timashev, Peter S., Burdukovskii, Vitaliy F.
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Language:	English
Subjects:	LCD 3D/4D-printing Photopolymerization Polyetherimide Polysulfone Shape memory polymers
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creator	Nikishina, Alena N. Kholkhoev, Bato Ch Bardakova, Kseniia N. Matveev, Zakhar A. Kurdanova, Zhanna I. Shakhmurzova, Kamila T. Zhansitov, Azamat A. Khashirova, Svetlana Yu Timashev, Peter S. Burdukovskii, Vitaliy F.
description	High-performance aromatic heterochain polymers are engineering thermoplastics with exceptional mechanical and thermal properties that have attracted great interest in various areas ranging from aerospace to biomedicine. However, there have been a number of difficulties to 3D-print materials based on such polymers with new promising performance characteristics. Herein, a number of new photosensitive compositions (PSCs) based on high-performance polyetherimide (PEI) or polysulfone (PSU), reactive functional monomer (N,N-dimethylacrylamide) and oligomer (bisphenol A ethoxylate diacrylate) has been developed. It has been shown that the use of the developed PSCs allows the formation of 3D-structures with high printing resolution by LCD 3D-printing. Subsequent thermal post-curing of 3D-printed green-state samples at 250°С for 1 h led to the fabrication of materials with the highest tensile strength (up to 41.9 ± 3.1 MPa), glass transition temperature (141 °C) and thermal stability (above 350 °C). In addition, 3D-printed structures demonstrate high-temperature shape memory effect with shape fixity ratio > 99% and shape recovery ratio up to 97.1%. [Display omitted] •A composition based on PEI or PSU can be used for LCD 3D-printing.•The materials are characterized by a high tensile strength and thermal stability.•The 4D-printed structures possess a good shape memory performance at Trec = 171 °C.
doi_str_mv	10.1016/j.reactfunctpolym.2024.106001
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subjects	LCD 3D/4D-printing Photopolymerization Polyetherimide Polysulfone Shape memory polymers
title	Photopolymerization-based 4D-printing of shape-memory materials containing high-performance polymers
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