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W3006574328 startingPage "438" @default.
W3006574328 abstract "Four different strategies for mitigating the highly hydrophilic nature of flax fibers were investigated with a view to increase their compatibility with apolar polypropylene. The effects of two carbon nanostructures (graphene nanoplatelets (GNPs) and carbon nanotubes (CNTs)), of a chemical modification with a fatty acid (stearic acid), and of maleated polypropylene on interfacial adhesion, mechanical properties (tensile and flexural), and thermal stability (TGA) were compared. The best performance was achieved by a synergistic combination of GNPs and maleated polypropylene, which resulted in an increase in tensile strength and modulus of 42.46% and 54.96%, respectively, compared to baseline composites. Stearation proved to be an effective strategy for increasing the compatibility with apolar matrices when performed in an ethanol solution with a 0.4 M concentration. The results demonstrate that an adequate selection of surface modification strategies leads to considerable enhancements in targeted properties." @default.
W3006574328 created "2020-02-24" @default.
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W3006574328 date "2020-02-13" @default.
W3006574328 modified "2023-10-03" @default.
W3006574328 title "Effect of Carbon Nanostructures and Fatty Acid Treatment on the Mechanical and Thermal Performances of Flax/Polypropylene Composites" @default.
W3006574328 cites W1458577565 @default.
W3006574328 cites W1474786536 @default.
W3006574328 cites W1892631577 @default.
W3006574328 cites W1963554203 @default.
W3006574328 cites W1964002668 @default.
W3006574328 cites W1965865841 @default.
W3006574328 cites W1967399993 @default.
W3006574328 cites W1970212294 @default.
W3006574328 cites W1977982030 @default.
W3006574328 cites W1978452468 @default.
W3006574328 cites W1979742239 @default.
W3006574328 cites W1980471588 @default.
W3006574328 cites W1983877587 @default.
W3006574328 cites W1989309323 @default.
W3006574328 cites W2003721019 @default.
W3006574328 cites W2004286865 @default.
W3006574328 cites W2013175705 @default.
W3006574328 cites W2014438935 @default.
W3006574328 cites W2018978054 @default.
W3006574328 cites W2020000057 @default.
W3006574328 cites W2021066884 @default.
W3006574328 cites W2026170036 @default.
W3006574328 cites W2029373470 @default.
W3006574328 cites W2030746820 @default.
W3006574328 cites W2037211450 @default.
W3006574328 cites W2041655615 @default.
W3006574328 cites W2055137298 @default.
W3006574328 cites W2068336730 @default.
W3006574328 cites W2068521809 @default.
W3006574328 cites W2071963566 @default.
W3006574328 cites W2074905411 @default.
W3006574328 cites W2075804074 @default.
W3006574328 cites W2076603665 @default.
W3006574328 cites W2087332934 @default.
W3006574328 cites W2101044424 @default.
W3006574328 cites W2118524778 @default.
W3006574328 cites W2120943824 @default.
W3006574328 cites W2135689432 @default.
W3006574328 cites W2137658414 @default.
W3006574328 cites W2147228252 @default.
W3006574328 cites W2161154006 @default.
W3006574328 cites W2170034564 @default.
W3006574328 cites W2268710138 @default.
W3006574328 cites W2289053282 @default.
W3006574328 cites W2312402563 @default.
W3006574328 cites W2313287574 @default.
W3006574328 cites W2314673260 @default.
W3006574328 cites W2321928698 @default.
W3006574328 cites W2337828634 @default.
W3006574328 cites W2559764812 @default.
W3006574328 cites W2581333754 @default.
W3006574328 cites W2590610479 @default.
W3006574328 cites W2704302843 @default.
W3006574328 cites W2753425948 @default.
W3006574328 cites W2766534145 @default.
W3006574328 cites W2791846829 @default.
W3006574328 cites W2800293297 @default.
W3006574328 cites W2804193030 @default.
W3006574328 cites W2805134094 @default.
W3006574328 cites W2884019117 @default.
W3006574328 cites W2891108642 @default.
W3006574328 cites W2942668259 @default.
W3006574328 cites W2968345575 @default.
W3006574328 cites W2980877156 @default.
W3006574328 cites W2989989498 @default.
W3006574328 cites W2995745115 @default.
W3006574328 cites W4231499938 @default.
W3006574328 cites W4251233039 @default.
W3006574328 cites W4367722747 @default.
W3006574328 cites W642984676 @default.
W3006574328 cites W3143267012 @default.
W3006574328 doi "https://doi.org/10.3390/polym12020438" @default.
W3006574328 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7077640" @default.
W3006574328 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32069810" @default.
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