废弃碳纤维制备工程应用的复合材料井盖

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Abstract

针对废弃碳纤维直接填埋或焚烧造成的环境污染及处理成本高昂等问题，本研究采用模压成型工艺将废弃纤维制备成复合材料井盖，系统分析了井盖静态力学性能、微观形貌及抗冲击性能。静态力学性能测试结果表明：原材料规格对复合材料井盖的力学性能影响较为明显，短切碳纤维预浸料制备复合材料井盖的力学性能明显优于碳纤维预浸布带，其拉伸强度为51MPa，压缩强度为152MPa，弯曲强度为180MPa。SEM测试结果显示：短切碳纤维预浸料制备的复合材料井盖，纤维与树脂的界面粘接性良好，无明显的分层、空隙等缺陷。

Keywords

回收利用

废弃碳纤维

复合材料井盖

力学性能

References

[1]TangSF,HuCL.Design,preparationandpropertiesofcarbonfiberreinforcedultra-hightemperatureceramiccompositesforaerospaceapplications:Areview[J].JournalofMaterialsSci
ence&Technology,2017,33:117-130.
[2]CodyJohnson,SelvumPillay,HaibinNing.Fibercontentmeasurementofhybridcarbonandglassfiberreinforcedthermosetcomposites[J].JournalofCompositeMaterials,2022,V
ol.56(18):2825–2834.
[3]JinlongShang.Durabilitytestingofcompositeaerospacematerialsbasedonanewpolymercarbonfiber-reinforcedepoxyresin[J].FluidDynamics&MaterialsProcessi
ng,2023(9):2315-2327.
[4] 胡侨乐，端玉芳，刘志，等.碳纤维增强聚合物基复合材料回收再利用现状[J].复合材料学报,202239(1):64-76.
[5]LiuW,HuangH,ZhuLetal.IntegratingcarbonfiberreclamationandadditivemanufacturingforrecyclingCFRPwaste[J].CompositesPartB:Engineering,2021,215:108808.
[6]PickeringS,TurnerT,MengF.Developmentsinthefluidisedbedprocessforfibrerecoveryfromthermosetcomposites[C].2ndAnnualCompositesandAdvancedMaterialsExpo,CA
MX,2015:2384-2394.
[7]HartlineNL,BruceNJ,KarbaSN,etal.MicrofiberMassesRecoveredfromConventionalMachineWashingofNeworAgedGarments[J].EnvironmentalScience&Technolo
gy,2016,50(21):11532-11538.
[8] 张学磊.城市窨井盖治理及智慧化改造[J].工程建设与设计,2023,（3）:89-91.
[9] 马兴遨，黄丹丹，焦晓磊.废旧复合材料井盖研究与应用[J].天津建设科技，2023,33(5),14-17.
[10] 张亮儒，杨燕宁，卢晨.碳纤维复合材料回收再利用的研究进展[J].合成纤维SyntheticFiberinchina,2023(52):38-41,93.

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