Rwawiire, S., & Tomkova, B. Static and Dynamic Mechanical Properties of Barkcloth (Ficus Natalensis)-Reinforced Epoxy Composite. 13, 137-145. https://doi.org/10.1080/15440478.2014.984061
Samson Rwawiire Blanka TomkovaBending strength Composite materials Composite morphology Composites DMA Dynamical mechanical analysis Epoxides Epoxy composite laminates Ficus natalensis Forestry Laminated composites Mechanical Properties Natural Fibers Natural Fibers Reinforcement SEM Scanning electron microscopy Static and dynamic mechanical properties Structural applications Tensile strength United Nations educational Scientific and Cultural Organization Weaving barkcloth composite materials natural fiber
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Rwawiire, S., & Tomkova, B. Static and Dynamic Mechanical Properties of Barkcloth (Ficus Natalensis)-Reinforced Epoxy Composite. 13, 137-145. https://doi.org/10.1080/15440478.2014.984061
Samson Rwawiire Blanka TomkovaBending strength Composite materials Composite morphology Composites DMA Dynamical mechanical analysis Epoxides Epoxy composite laminates Ficus natalensis Forestry Laminated composites Mechanical Properties Natural Fibers Natural Fibers Reinforcement SEM Scanning electron microscopy Static and dynamic mechanical properties Structural applications Tensile strength United Nations educational Scientific and Cultural Organization Weaving barkcloth composite materials natural fiber
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Yueting, S., Yingjie, Z., Liying, D., & Anyong, C. Nanocomposite "Xuan Paper" Made from Ultralong Hydroxyapatite Nanowires and Cellulose Fibers and Its Anti-mildew Properties. 36, 107-112. https://doi.org/10.15541/jim20200087
Shao Yueting Zhu Yingjie Dong Liying Cai AnyongAnti-mildew Aspergillus Aspergillus niger Cellulose Cellulose fiber Chaetomium globosum Chinese calligraphy Fungi Hydroxyapatite Intangible cultural heritages Nanocomposites Nanowire Nanowires Natural Fibers Natural Fibers Paper Performance Surfaces Textile Fibers Textile Fibers Trichoderma viride United Nations Weight ratios Xuan paper
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Yueting, S., Yingjie, Z., Liying, D., & Anyong, C. Nanocomposite "Xuan Paper" Made from Ultralong Hydroxyapatite Nanowires and Cellulose Fibers and Its Anti-mildew Properties. 36, 107-112. https://doi.org/10.15541/jim20200087
Shao Yueting Zhu Yingjie Dong Liying Cai AnyongAnti-mildew Aspergillus Aspergillus niger Cellulose Cellulose fiber Chaetomium globosum Chinese calligraphy Fungi Hydroxyapatite Intangible cultural heritages Nanocomposites Nanowire Nanowires Natural Fibers Natural Fibers Paper Performance Surfaces Textile Fibers Textile Fibers Trichoderma viride United Nations Weight ratios Xuan paper
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Shao, Y. -T., Zhu, Y. -J., Dong, L. -Y., & Zhang, Q. -Q. (2019). A new kind of nanocomposite Xuan paper comprising ultralong hydroxyapatite nanowires and cellulose fibers with a unique ink wetting performance. Rsc Advances, 9, 40750-40757. https://doi.org/10.1039/c9ra08349a (Original work published dec)
Yue-Ting Shao Ying-Jie Zhu Li-Ying Dong Qiang-Qiang ZhangCellulose Cellulose fiber Contact angle Contact angle Durability History Hydroxyapatite Hydroxyapatite (HAp) Intangible cultural heritages Nanocomposites Nanowires Natural Fibers Natural Fibers Paper Super-hydrophilic Textile Fibers Textile Fibers Textures United Nations Water contact angle Wetting Wetting behavior Wetting performance
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Shao, Y. -T., Zhu, Y. -J., Dong, L. -Y., & Zhang, Q. -Q. (2019). A new kind of nanocomposite Xuan paper comprising ultralong hydroxyapatite nanowires and cellulose fibers with a unique ink wetting performance. Rsc Advances, 9, 40750-40757. https://doi.org/10.1039/c9ra08349a (Original work published dec)
Yue-Ting Shao Ying-Jie Zhu Li-Ying Dong Qiang-Qiang ZhangCellulose Cellulose fiber Contact angle Contact angle Durability History Hydroxyapatite Hydroxyapatite (HAp) Intangible cultural heritages Nanocomposites Nanowires Natural Fibers Natural Fibers Paper Super-hydrophilic Textile Fibers Textile Fibers Textures United Nations Water contact angle Wetting Wetting behavior Wetting performance
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