1. Covalent modification of temperature-sensitive breathable polyurethane with carbon nanotubes.
- Author
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Zhai, Bin, Zhang, Chi, Zhang, Fuqiang, Li, Zhongyi, Zhang, Fuli, Li, Suzhi, Zhang, Xiangfei, and Cao, Guangxiu
- Subjects
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POLYURETHANES , *HYDROSTATIC pressure , *CARBON nanotubes , *TENSILE strength , *WATER vapor , *CRITICAL temperature - Abstract
Intelligent breathable polyurethane (PU) that is easily allowable for vapor transmission at critical temperature would have significant implication for numerous applications; however, fabrication of such materials has proven to be tremendously challenging. Herein, we reported novel breathable polyurethane material covalently modified with carbon nanotubes (CNTs). When an optimal amount of CNTs (0.5 wt%) was added, the resultant PU film presented high waterproofness with hydrostatic pressure up to 10.9 kPa, as well as enhanced mechanical properties with a tensile strength of 22.2 kPa and elongation at break of 990%. This smart PU film has a significant increase in water vapor transmission rate between 18°C (1400 g/(m2·d)) and 38°C (3440 g/(m2·d)). The type of intelligent polyurethane material is a promising candidate for applications in areas such as protective clothing, separator media, and wearable electronics. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
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