Core-shell structure of crosslinking coated corn stalk fibers: Constructing compatible interface for polylactic acid composites

Core-shell structure of crosslinking coated corn stalk fibers: Constructing compatible interface for polylactic acid composites

The poor compatibility between plant fibers and polylactic acid (PLA) severely restricts the wide application of PLA composites. The traditional treatment methods generate a large amount of wastewater and cause additional energy waste. This work innovatively proposed the use of reactive epoxy resin...

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Bibliographic Details
Main Authors: Zhongyu Qi, Baiwang Wang, Zhengyi Fang, Yubin Zhang
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Journal of Materials Research and Technology
Subjects:
Compatibility
Core-shell structure
Crosslinking
Interface
Molecular chain
Online Access:http://www.sciencedirect.com/science/article/pii/S2238785425015091
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Summary:The poor compatibility between plant fibers and polylactic acid (PLA) severely restricts the wide application of PLA composites. The traditional treatment methods generate a large amount of wastewater and cause additional energy waste. This work innovatively proposed the use of reactive epoxy resin groups or isocyanate groups to cross-link with corn stalk fibers (CSF). This treatment formed a core-shell structure, which reduced and coated the hydroxyl groups on the surface of the CSF. Subsequently, high-performance CSF/PLA composites were prepared by in-situ bonding with PLA. The microscopic analysis showed that CF forms a distinct core-shell structure. The results indicate that when 10 % isocyanate was added, and the core-shell structure was formed. The mechanical properties of each phase of the PLA composite could be significantly improved. The impact resistance of the PLA composite was increased by 99.8 % compared to the modified one. The tensile strength and flexural strength reach 50.7 MPa and 113.4 MPa, respectively. Making composites using nature biomass as raw materials is a good way to save energy and solid carbon, while also endowing the materials with rich functionalities, which is beneficial to realize the sustainable development of macromolecular materials.
ISSN:2238-7854

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