Reduced time as a unified parameter determining fixity and free recovery of shape memory polymers

Yu, Kai; Ge, Qi; Hu, Qi

doi:10.1038/ncomms4066

Cited by 228 publications

(195 citation statements)

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“…[24,34,35,105] Shape memory materials are the fundamental components of such devices, and mainly contain three types of materials, i.e., shape-memory polymers, alloys and some ceramic materials. [106][107][108] In the past two years, shape memory materials have been applied as substrates or cores to support charge-storage active components, and have been assembled into plane-or fibershaped memory supercapacitors. Yan et al reported a smart design for a watchband-like supercapacitor based on a TiNi alloy, with a shape memory ability inducible by body temperature (Figure 6a).…”

Section: Shape-memory Ability In Response To External Mechanical Defomentioning

confidence: 99%

Smart Electrochemical Energy Storage Devices with Self‐Protection and Self‐Adaptation Abilities

Yang

Wang

et al. 2017

Advanced Materials

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Currently, with booming development and worldwide usage of rechargeable electrochemical energy storage devices, their safety issues, operation stability, service life, and user experience are garnering special attention. Smart and intelligent energy storage devices with self‐protection and self‐adaptation abilities aiming to address these challenges are being developed with great urgency. In this Progress Report, we highlight recent achievements in the field of smart energy storage systems that could early‐detect incoming internal short circuits and self‐protect against thermal runaway. Moreover, intelligent devices that are able to take actions and self‐adapt in response to external mechanical disruption or deformation, i.e., exhibiting self‐healing or shape‐memory behaviors, are discussed. Finally, insights into the future development of smart rechargeable energy storage devices are provided.

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Section: Shape-memory Ability In Response To External Mechanical Defomentioning

confidence: 99%

Smart Electrochemical Energy Storage Devices with Self‐Protection and Self‐Adaptation Abilities

Yang

Wang

et al. 2017

Advanced Materials

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“…Nowadays, there are many stimuli for SMP deformation and recovery, mainly including temperature [4], light [5], electricity [6], magnetic field [7], moisture [8] and solution [9]. Thermally-actuated SMP has been widely applied and achieved great development.…”

Section: Introductionmentioning

confidence: 99%

Adaptive repair device concept with shape memory polymer

Zhao

Liu

Lan

et al. 2017

Smart Mater. Struct.

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General rightsThis document is made available in accordance with publisher policies. Please cite only the published version using the reference above. AbstractShape memory polymer (SMP) is a new kind of intelligent polymer which can be activated by an external stimulus to change and subsequently recover its original shape. Duo to this shape memory effect, SMP can be used in wide range of engineer and bio-medical applications. This paper details an application of SMP on manufacturing of a fracture fixation. The basic properties were characterized by dynamic mechanical analysis (DMA), and the stress relaxation and fatigue were established. A SMP based fracture fixator was designed, analyzed and optimized.Finally, the fixator was fabricated and the fixed effects were verified by experiment in vitro. The performance of SMP based fixator was excellent and proved to be a potential replacement for traditional fracture fixator.

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“…Shape memory polymers (SMPs) are a type of polymeric smart material that can maintain one temporary form and recover the original shape under external stimuli like temperature [1], light [2,3], electricity [4], magnetism [5,6] and solvents [7]. The advantages of SMPs are their ability to undergo large-deformations and their shape memory effect.…”

Section: Introductionmentioning

confidence: 99%