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Volume 4, Issue 1
Bioactive Nanofibres for Wound Healing Applications

Victor Leung, Ryan Hartwell, Heejae Yang, Aziz Ghahary & Frank Ko

Journal of Fiber Bioengineering & Informatics, 4 (2011), pp. 1-14.

Published online: 2011-04

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  • Abstract
This study investigates carbon nanotube textiles as advanced personal protection equipment for firefighters and first responders. Carbon nanotubes are lightweight, flame resistant, and possess high mechanical and thermal properties. Carbon nanotubes are also thermally anisotropic, meaning they easily conduct heat along the axis of an individual tube, and are relatively insulating across the tube's diameter. By recognizing this anisotropic behavior, heat transfer through a layer of aligned carbon nanotubes in a garment can be partially redirected to a cold reservoir thereby protecting the wearer from heat stress and exhaustion. Finite element models were developed to simulate a carbon nanotube layer embedded in a firefighting garment and thermally connected to a cold reservoir. Simulation showed that under heat stress conditions, firefighter skin temperature was considerably reduced by the cooling layer.
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@Article{JFBI-4-1, author = {Victor Leung, Ryan Hartwell, Heejae Yang, Aziz Ghahary and Frank Ko}, title = {Bioactive Nanofibres for Wound Healing Applications}, journal = {Journal of Fiber Bioengineering and Informatics}, year = {2011}, volume = {4}, number = {1}, pages = {1--14}, abstract = {This study investigates carbon nanotube textiles as advanced personal protection equipment for firefighters and first responders. Carbon nanotubes are lightweight, flame resistant, and possess high mechanical and thermal properties. Carbon nanotubes are also thermally anisotropic, meaning they easily conduct heat along the axis of an individual tube, and are relatively insulating across the tube's diameter. By recognizing this anisotropic behavior, heat transfer through a layer of aligned carbon nanotubes in a garment can be partially redirected to a cold reservoir thereby protecting the wearer from heat stress and exhaustion. Finite element models were developed to simulate a carbon nanotube layer embedded in a firefighting garment and thermally connected to a cold reservoir. Simulation showed that under heat stress conditions, firefighter skin temperature was considerably reduced by the cooling layer.}, issn = {2617-8699}, doi = {https://doi.org/10.3993/jfbi04201101}, url = {http://global-sci.org/intro/article_detail/jfbi/4897.html} }
TY - JOUR T1 - Bioactive Nanofibres for Wound Healing Applications AU - Victor Leung, Ryan Hartwell, Heejae Yang, Aziz Ghahary & Frank Ko JO - Journal of Fiber Bioengineering and Informatics VL - 1 SP - 1 EP - 14 PY - 2011 DA - 2011/04 SN - 4 DO - http://doi.org/10.3993/jfbi04201101 UR - https://global-sci.org/intro/article_detail/jfbi/4897.html KW - Nanofibres KW - Wound Dressing KW - Drug Delivery KW - Biomedical KW - Electrospinning KW - Active Textile AB - This study investigates carbon nanotube textiles as advanced personal protection equipment for firefighters and first responders. Carbon nanotubes are lightweight, flame resistant, and possess high mechanical and thermal properties. Carbon nanotubes are also thermally anisotropic, meaning they easily conduct heat along the axis of an individual tube, and are relatively insulating across the tube's diameter. By recognizing this anisotropic behavior, heat transfer through a layer of aligned carbon nanotubes in a garment can be partially redirected to a cold reservoir thereby protecting the wearer from heat stress and exhaustion. Finite element models were developed to simulate a carbon nanotube layer embedded in a firefighting garment and thermally connected to a cold reservoir. Simulation showed that under heat stress conditions, firefighter skin temperature was considerably reduced by the cooling layer.
Victor Leung, Ryan Hartwell, Heejae Yang, Aziz Ghahary and Frank Ko. (2011). Bioactive Nanofibres for Wound Healing Applications. Journal of Fiber Bioengineering and Informatics. 4 (1). 1-14. doi:10.3993/jfbi04201101
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