Self-healing high temperature shape memory polymer

[Display omitted] •Self-healing shape memory polyimide (SHSMPI) that can heal the damages of polyimide.•Healing temperature of 243 °C is higher than those of other self-healing polymers reported.•SHSMPI combines shape memory effect with self-healing performance.•Damages such as crack, pierced hole a...

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Bibliographic Details
Published in:European polymer journal 2019-11, Vol.120, p.109279, Article 109279
Main Authors: Kong, Deyan, Li, Jie, Guo, Anru, Zhang, Xintong, Xiao, Xinli
Format: Article
Language:English
Subjects:
Efficiency
High temperature
High-temperature properties
Internal energy
Mass production
Mechanical properties
Memory
Polystyrene
Polystyrene resins
Self healing materials
Service life
Shape effects
Shape memory
Smart materials
Studies
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Summary:[Display omitted] •Self-healing shape memory polyimide (SHSMPI) that can heal the damages of polyimide.•Healing temperature of 243 °C is higher than those of other self-healing polymers reported.•SHSMPI combines shape memory effect with self-healing performance.•Damages such as crack, pierced hole and cut can be healed effectively.•Suitable for mass production due to the convenient blending method. Self-healing can improve reliability and extend service lifetime of materials while shape memory polymers (SMPs) have potential in many smart applications, and here self-healing shape memory polyimide (SHSMPI) that can heal damages at high temperature is fabricated for the first time. SHSMPI is synthesized by incorporating fusible thermoplastic polystyrene (PS) at 8% weight content into shape memory polyimide (SMPI) matrix, and it exhibits excellent shape memory effect. SHSMPI can self-heal crack, pierced hole, and cut effectively at heal-temperature of 243 °C. Self-healing mechanism of SHSMPI is discussed, and SMPI matrix produces spatial proximity through shape memory effect while PS acts as healing agent to heal the damages. SHSMPI can produce stored energy of 0.105 J g−1 at the efficiency of 33.1% upon triggering. The designing of SHSMPI at macroscale makes it suitable for mass production, and the self-healing performance will greatly expand application areas of SMPI.
ISSN:0014-3057
1873-1945
DOI:10.1016/j.eurpolymj.2019.109279