Heat-stimuli controllability of shape memory thermoplastic epoxy filaments by adding polyethylene glycol

This study prepared shape-memory thermoplastic epoxy (TEP)-polyethylene glycol (PEG) filaments for the first time, and the heat-stimuli controllability of shape memory function was innovatively endowed by adding PEG in an environmentally friendly way. PEG regulates the glass transition temperature o...

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Bibliographic Details
Published in:Polymer (Guilford) 2022-05, Vol.250, p.124818, Article 124818
Main Authors: Hu, Baoji, Xia, Hong, Liu, Fan, Ni, Qing-Qing
Format: Article
Language:English
Subjects:
Actuation
Artificial muscles
Controllability
Filaments
Glass transition temperature
Heat
Heat-stimuli controllability
Mechanical properties
Melt spinning
Modulus of elasticity
Muscles
Polyethylene glycol
Recovery
Room temperature
Shape effects
Shape memory
Shape memory function
Smart materials
Stimuli
Temperature
Textiles
Thermoplastic epoxy filament
Transition temperatures
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Summary:This study prepared shape-memory thermoplastic epoxy (TEP)-polyethylene glycol (PEG) filaments for the first time, and the heat-stimuli controllability of shape memory function was innovatively endowed by adding PEG in an environmentally friendly way. PEG regulates the glass transition temperature of PEG-modified thermoplastic epoxy (TEP–PEG) without interfering with the polymerization reaction of epoxy. The melt spinning temperature of TEP–PEG is also reduced from 300 °C to 220 °C, and the spinning effect is improved. After PEG modification, Young's modulus of TEP–PEG filaments drawn from TEP–PEG pellets was higher at room temperature. The developed TEP–PEG filaments have excellent shape memory effect with high shape recovery rates of 93.1%–99.0%, and shape fixation rates ranging from 95.8% to 99.1% are also improved after PEG modification. Furthermore, TEP–PEG filaments have controllable stimuli temperatures of shape memory ranging from 69 °C to 105 °C. Additionally, the recovery stress of TEP–PEG filaments after PEG modification was increased to 1.77 MPa, and the recovery temperature of the maximum recovery stress is reduced from 97 °C to 58 °C as PEG content increases to 15 wt%. The problems of difficult melt processing and uncontrollable stimuli temperature for TEP were solved in this study. The developed TEP-PEG filaments with heat-stimuli controllability of the shape memory function demonstrated excellent thermal actuation capabilities and have shown greater application potential in thermal actuation, smart textiles, and artificial muscles. [Display omitted] •The spinning temperature of epoxy was regulated more environmentally friendly.•Epoxy filaments with different Tg were obtained without reducing mechanical property.•The heat-stimuli controllability of shape memory function for epoxy filaments was realized by adding PEG.•Epoxy filaments showed greater thermal actuation ability by adding PEG.
ISSN:0032-3861
1873-2291
DOI:10.1016/j.polymer.2022.124818