纤维与增强英文2024被引 6
层间微纳短芳纶纤维构建柔性纤维桥接爪增强玻纤增强复合材料的压缩强度(冲击前后)
Constructing flexible fiber bridging claws of micro/nano short aramid fiber at interlayer of basalt fiber reinforced polymer for improving compressive strength with and without impact
Jiaxin He, Yanan LYU, Guangming Yang, Fei Cheng, Yongjun Deng, Shihao Zuo, Sidra Ashfaq, Yunsen Hu, Xiaozhi Hu · Southwest University of Science and Technology
摘要整理
通过在层间引入微纳短芳纶纤维(MNSAF)制备了高性能玻纤增强复合材料(BFRP)复合材料,以改善树脂富集区和界面过渡区的性能。微纳短芳纶纤维构建的柔性纤维桥接爪能够有效抓握相邻层,形成更强的层间粘结。低速冲击试验结果表明,MNSAF能显著提高BFRP复合材料的抗冲击性能。压缩试验结果表明,MNSAF增强BFRP复合材料的压缩强度和冲击后残余压缩强度均优于未增强材料,其中4wt% MNSAF增强的BFRP复合材料的压缩强度和冲击后残余压缩强度分别提高了56.2%和73.3%。X射线微焦点计算机断层扫描结果表明,"纤维桥接爪"通过更好的机械互锁作用,在冲击和压缩载荷下抑制裂纹的产生和扩展,使未增强BFRP复合材料原有的分层破坏模式转变为MNSAF增强BFRP复合材料的剪切破坏模式。研究表明,微纳短芳纶纤维层间增强技术可作为工业生产中制造高性能层板纤维复合材料的有效方法。
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