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矿化物增强木塑复合材料研究进展OA

Research Progress on Mineral Reinforced Wood Plastic Composites

中文摘要英文摘要

矿化物凭借其优异的耐老化性、阻燃性及力学性能等特点,已成为重要的化工原料.以矿化物增强的复合材料因其环境友好特性、资源集约化利用潜力及优异的综合性能,已成为新型功能复合材料和绿色建筑材料领域的研究热点.文章从矿化物增强体种类、矿化物与基体材料的复合方式以及复合材料功能拓展性方面系统阐述矿化物增强木塑复合材料(WPC)在力学性能、耐老化性、耐水性及阻燃性等方面的研究进展与现状.针对矿化物增强复合材料在矿物种类开发、矿化物与木塑基体间的界面调控、复合材料功能性拓展等方面存在的问题,展望矿化物增强WPC的发展趋势与应用前景,旨在为该材料的进一步研发提供依据.

Owing to their outstanding aging resistance,flame retardancy,and mechanical performance,mineralized compounds had evolved into essential chemical raw materials.Mineral reinforced composites,celebrated for their eco-friendly character,potential for resource-conserving utilization,and superior overall properties,had emerged as a focal point of research in the field of novel functional composites and green building materials.The paper systematically reviewed the research progress and current status of mechanical behavior,aging resistance,water resistance,and flame retardancy of mineral reinforced wood plastic composites(WPC)from the aspects of the types of mineral reinforcements,the compounding strategies between minerals and the matrix,and the expandability of composite functionality.In view of the existing problems in mineral reinforced composites regarding the development of mineral types,interfacial regulation between minerals and wood-plastic matrix,and functional expansion of composite materials,future development trends and application prospects for mineral reinforced WPC were projected,aiming to provide a reference for further material development.

胡建鹏;宋冠霖

内蒙古农业大学材料科学与艺术设计学院,内蒙古 呼和浩特 010018||国家林业草原沙生灌木高效开发利用工程技术研究中心,内蒙古 呼和浩特 010018内蒙古农业大学材料科学与艺术设计学院,内蒙古 呼和浩特 010018

农业科技

矿化物木塑复合材料性能调控仿生矿化功能化拓展

Mineralized compoundsWood plastic compositesProperty modulationBiomimetic mineralizationFunctional expansion

《塑料科技》 2026 (2)

190-195,6

内蒙古自然科学基金面上项目(2024LHMS03020)内蒙古自治区直属高校基本科研业务费专项(BR220124)

10.15925/j.cnki.issn1005-3360.2026.02.034

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