工程塑料应用
工程塑料應用
공정소료응용
ENGINEERING PLASTICS APPLICATION
2014年
8期
82-86
,共5页
张显果%孙春燕%朱帅甫%孙兴志%闫盼盼%吴海宏
張顯果%孫春燕%硃帥甫%孫興誌%閆盼盼%吳海宏
장현과%손춘연%주수보%손흥지%염반반%오해굉
碳纤维%PA66%液相酸化%上浆剂%力学性能
碳纖維%PA66%液相痠化%上漿劑%力學性能
탄섬유%PA66%액상산화%상장제%역학성능
carbonfiber%PA66%liquid phase acidification%sizing agent%mechanical property
以10%碳纤维(CF)增强尼龙66(PA66)为实验对象,采用液相酸化法和自制PA上浆剂两种方法对CF进行表面处理,实验了不同处理方法对CF表面状态的影响,用红外光谱测试了不同处理后的官能团,并分析测试了CF表面状态对PA66/CF复合材料微观结构与力学性能的影响。实验结果表明,在混合酸溶液中加入过硫酸铵可以有效地提高CF表面酸化速率。自制的PA上浆剂使CF表面活性基团密度提高,改善了与PA66基体的相容性,其界面微观结构有所改善,结合强度有所提高。由此制备的PA66/CF复合材料,拉伸强度由115 MPa提高到162 MPa,提高了40.87%。冲击强度由7.8 kJ/m2提高到了11.2 kJ/m2,提高了43.59%。
以10%碳纖維(CF)增彊尼龍66(PA66)為實驗對象,採用液相痠化法和自製PA上漿劑兩種方法對CF進行錶麵處理,實驗瞭不同處理方法對CF錶麵狀態的影響,用紅外光譜測試瞭不同處理後的官能糰,併分析測試瞭CF錶麵狀態對PA66/CF複閤材料微觀結構與力學性能的影響。實驗結果錶明,在混閤痠溶液中加入過硫痠銨可以有效地提高CF錶麵痠化速率。自製的PA上漿劑使CF錶麵活性基糰密度提高,改善瞭與PA66基體的相容性,其界麵微觀結構有所改善,結閤彊度有所提高。由此製備的PA66/CF複閤材料,拉伸彊度由115 MPa提高到162 MPa,提高瞭40.87%。遲擊彊度由7.8 kJ/m2提高到瞭11.2 kJ/m2,提高瞭43.59%。
이10%탄섬유(CF)증강니룡66(PA66)위실험대상,채용액상산화법화자제PA상장제량충방법대CF진행표면처리,실험료불동처리방법대CF표면상태적영향,용홍외광보측시료불동처리후적관능단,병분석측시료CF표면상태대PA66/CF복합재료미관결구여역학성능적영향。실험결과표명,재혼합산용액중가입과류산안가이유효지제고CF표면산화속솔。자제적PA상장제사CF표면활성기단밀도제고,개선료여PA66기체적상용성,기계면미관결구유소개선,결합강도유소제고。유차제비적PA66/CF복합재료,랍신강도유115 MPa제고도162 MPa,제고료40.87%。충격강도유7.8 kJ/m2제고도료11.2 kJ/m2,제고료43.59%。
Taking 10% mass fraction of carbon fiber(CF) reinforced polyamide(PA) as an experimental object,two modification methods of CF,including liquid phase acidification and a new polyamide sizing agent self-developed were tested. Functional groups on CF were analyzed with infrared spectra and the impacts of surface state of CF on microstructure and mechanical properties of PA66/CF composite were analyzed further. The results indicate that CF surface acidification rate is effectively increased in mixed acid with ammonium persulfate. Active functional group density on CF is increased with self-developed PA sizing agent and the compatibility between polyamide matrix and CF and interface microstructure are improved. Accordingly,mechanical properties of PA66/CF composite are increased. The tensile strength of PA66/CF composite increase from 115 MPa to 162MPa, increased by 40.87%,and impact strength increase from 7.8 kJ/m2 to 11.2 kJ/m2,increased by 43.59%.