材料科学
复合材料
两亲性
极限抗拉强度
聚苯乙烯
尺寸
聚合物
共聚物
乳状液
三乙醇胺
润湿
苯乙烯
复合数
抗剪强度(土壤)
纤维
共价键
抗撕裂性
氧化物
色散(光学)
超细纤维
作者
Qi Zhang,Huihuang Ma,Luo Luo,Chunhua Zhou,Qunfang Lin,Xiaodong Zhou
摘要
ABSTRACT Basalt fiber (BF)–reinforced polyphenylene oxide (PPO) composites are promising for high‐performance wave‐transparent applications but are limited by intrinsically weak interfacial adhesion. To address this challenge, we developed a waterborne, self‐emulsified amphiphilic sizing agent inspired by reversible addition–fragmentation chain transfer (RAFT) polymerization, polymerization‐induced self‐assembly (PISA), and the “like‐dissolves‐like” principle. A styrene–maleic anhydride copolymer was grafted with triethanolamine to form an amphiphilic precursor that acted as a reactive emulsifier for styrene emulsion polymerization, ultimately yielding a self‐stabilized amphiphilic nanoemulsion. This sizing layer establishes a molecular bridge at the BF/PPO interface: hydrophilic PSMA‐g‐TEA segments covalently bond with surface SiOH groups to generate stable SiOC linkages, while hydrophobic polystyrene segments entangle with the PPO matrix. As a result, the tensile strength of BF monofilaments increased from 1.243 GPa (untreated) to 1.506 GPa, and the interfacial shear strength (IFSS) of the composites improved from 10.32 to 28.22 MPa. Requiring no additional emulsifiers or organic solvents, this environmentally benign and scalable strategy effectively overcomes interfacial incompatibility, providing an efficient route to high‐strength, low‐loss BF/PPO composites for advanced wave‐transparent structural applications.
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