Self‐Reporting Fiber‐Reinforced Composites That Mimic the Ability of Biological Materials to Sense and Report Damage

Rifaie‐Graham, Omar; Apebende, Edward A.; Bast, Livia K.; Bruns, Nico

doi:10.1002/adma.201705483

Cited by 92 publications

(74 citation statements)

References 177 publications

(234 reference statements)

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“…A series of visual damage strategies based on visualization materials had been developed for damage indication. [10][11][12][13][14] Dye-lled hollow glass ber [15][16][17] was used to indicate mechanic damages for polymers, but it cannot be applied to the surfaces of complex structures because of its slender shape. The microcapsule-based visualization sensor solves these problems better.…”

Section: Introductionmentioning

confidence: 99%

Microcapsule encapsulated with leuco dye as a visual sensor for concrete damage indicationviacolor variation

Wang

Zheng

et al. 2020

RSC Adv.

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Section: Introductionmentioning

confidence: 99%

Microcapsule encapsulated with leuco dye as a visual sensor for concrete damage indicationviacolor variation

Wang

Zheng

et al. 2020

RSC Adv.

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“…Recent efforts have focused on more scalable methods based on thin‐film approaches that utilize visual inspection or ultrasonic techniques. Examples include the use of dye penetrants or mechanically induced color change through the use of specific chemical functional groups that undergo mechanochemical reactions . Despite their promise for certain monitoring conditions, these techniques often result in a limited visual signal and can require controlled lighting conditions to increase reliability .…”

Section: Introductionmentioning

confidence: 99%

Soft Electronic Skin for Multi‐Site Damage Detection and Localization

Markvicka

Tutika

Bartlett

2019

Adv Funct Materials

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Soft‐matter technologies have a potentially central role in wearable computing, human–machine interaction, soft robotics, and other emerging applications that require highly compliant and elastic materials. However, these technologies are largely composed of soft materials that are susceptible to damage and loss of functionality when exposed to real‐world loading conditions. To address this critical challenge, we present a soft responsive material that, like natural nervous tissue, is able to identify, compute, and signal damage in real‐time. The soft composite material contains liquid metal droplets dispersed in an elastomer matrix that rupture when mechanical damage occurs (e.g., compression, fracture, or puncture), creating electrically conductive pathways. The resulting change in local conductivity can be actively sensed and coupled with actuation, communication, and computation in a manner that presents new opportunities to identify damage, calculate severity, and respond to prevent failure within soft material systems. When placed on the surface of a soft, humanoid‐like inflatable structure, the skin can detect puncture damage and control the operation of an embedded fan to prevent deflation.

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“…Visual sensors mainly include two types of film and microcapsule . The film visualization materials can only be applied to the surfaces as structural coatings .…”

Section: Introductionmentioning

confidence: 99%

Microcapsule‐Based Visualization Smart Sensors for Damage Detection: Principles and Applications

Zheng

Wang

et al. 2019

Adv Materials Technologies

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The smart sensor is an effective way to detect damage and improve structural safety in structural health monitoring. Microcapsule‐based visualization sensors stand out from the smart sensors. Here, the research progress of microcapsule visualization materials in recent years is summarized and the sensing principles, influence factors, performances, applications, and future prospects are introduced. The way to achieve the visualizing function of microcapsule visualization sensors is the fabrication of microcapsules that are encapsulated with solutions of dyes or indicator. When the protective shell of microcapsules is broken, the dyes will be released and activated under optical, chemical, or mechanical conditions. These visualized microcapsules can be added to the interior of the structure or prepared as a coating to provide structural health monitoring of the interior and surface of the structure. They can accurately detect microcracks and highlight them in bright colors. Additionally, the structural health monitoring applications of microcapsule visualization sensing coatings in concrete, asphalt, and steel are presented with detailed examples. The development and application of these microcapsule visualization sensors are of great significance in improving the structural life and avoiding structural failure in engineering.

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Self‐Reporting Fiber‐Reinforced Composites That Mimic the Ability of Biological Materials to Sense and Report Damage

Cited by 92 publications

References 177 publications

Microcapsule encapsulated with leuco dye as a visual sensor for concrete damage indicationviacolor variation

Microcapsule encapsulated with leuco dye as a visual sensor for concrete damage indicationviacolor variation

Soft Electronic Skin for Multi‐Site Damage Detection and Localization

Microcapsule‐Based Visualization Smart Sensors for Damage Detection: Principles and Applications

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