1. Tailoring the size and shape of PbWO4 particles in highly filled polymer fibers for γ‐rays shielding.
- Author
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Hu, Deng‐Chao, Zhang, Quan‐Ping, Liu, Shi‐Hao, Meng, Ling‐Cheng, Li, Gui‐Lin, Jiang, Yong, Guo, Lei, Liang, Qian‐Qian, Sun, Nan, Liu, Peng‐Qing, and Zhou, Yuan‐Lin
- Subjects
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PERSONAL protective equipment , *DESIGN protection , *WATER vapor , *TENSILE strength , *FIBERS , *RADIATION protection , *POLYVINYL alcohol - Abstract
Highlights Highly filled polymer fibers offer huge promise for radiation protection safety and wear comfort of personal protective equipment (PPE) in radiation environments. However, it usually sacrifices mechanical properties that directly related to practical usability. Here, as high as 75 wt% PbWO4 (PWO) particles have been filled in polyvinyl alcohol (PVA) fiber via tailoring their size and shape for enhanced γ‐rays shielding and good mechanical properties. Clearly shown that 0 dimensional (0‐D) PWO exhibits better dispersion and compatibility between the interfaces than 1‐D PWO in highly filled PVA fibers. In addition, 70 wt% 0‐D PWO/PVA fibers display better mechanical properties than 70 wt% 1‐D PWO/PVA fibers. Note that 75 wt% 0‐D PWO/PVA fibers show 1.02 cN/dtex of tensile strength. However, 75 wt% 1‐D PWO/PVA fibers fail to be fabricated smoothly. Importantly, the overlapped fabrics with 75 wt% 0‐D PWO/PVA fibers display 43.05% of γ‐ray shielding (105 keV) meanwhile it offers good air and water vapor permeability for wear comfort. The superior γ‐ray shielding ascribes the polymer fibers with the higher filling in comparison with its counterpart, which provides a practical means to design radiation protection safety and wear comfort of articles. This work breaks the upper limit of filling in polymer fibers Filler structure can weigh the integrated properties of polymer fibers. 0‐D PWO particles promote interfacial compatibility in highly filled fibers. Radiation protection safety and wear comfort of articles tend to be designed. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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