Microstructure and affecting factors of epoxy resin cured by electron beam radiation
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摘要: 采用扫描电镜对不同固化时间下电子束固化环氧树脂的微观结构进行观察和分析,探讨其形成过程,并研究了树脂分子结构、相对分子质量、树脂体系组分及辐射条件对微观结构的影响. 实验结果表明,环氧树脂经电子束固化后形成片层结构,树脂分子结构和分子量对其固化微结构的影响不大;不同结构、分子量的环氧树脂电子束固化过程中均会经历预聚体结构—圆片网络—圆片形成—圆片增长的生长过程,故其微观结构都呈现圆片状形貌;随着辐射剂量的增加,圆片逐渐增大;存在最佳引发剂用量,使圆片尺寸达到最小.Abstract: A scanning electron microscope (SEM) was used to observe the microstructures of cured samples after different cure time. The formation mechanism of microstructure was analyzed. The effects of molecular structure and molecular weight of epoxy resin, resin component, and radiation condition on the microstructure were also researched. The results show that the cure zone of epoxy resin consists of lamellae, and the resin molecular structure and weight have little effect on the cured microstructure. Under the electron beam radiation, epoxy resins with different structures or molecular weights all form prepolymer at first, then the prepolymer grows into network. With the radiation time increases, the network grows larger and the circular sheet forms finally. With the increasing of radiation dosage, the size of circular sheet increases. And there exists an optimum content of initiator, which makes the size of circular sheet reach the minimum.
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Key words:
- electron beams /
- radiation curing /
- epoxy resins /
- microstructure
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[1] Crivello J V. Advanced curing technologies using photo-and electron beam induced cationic polymerization [J]. Radiation Physics and Chemistry, 2002, 63:21-27 [2] Zsigmond B, Halasz L, Czvikovszky T. Electron beam processing of carbon fibre reinforced braided composites [J]. Radiation Physics and Chemistry, 2003, 67(3/4):441-445 [3] 隋刚, 张佐光, 李敏, 等. 电子束固化环氧树脂的引发和增长反应速率 [J]. 北京航空航天大学学报, 2003, 29(8):682-685 Sui Gang, Zhang Zuoguang, Li Min, et al. Rate of initiation and propagation in electron beam curing of epoxy resins [J]. Journal of Beijing University of Aeronautics and Astronautics, 2003, 29(8):682-685 (in Chinese) [4] Chappas W J, Devney B G, Olding R P, et al. EB curing of maritime composite structures [J]. Radiation Physics and Chemistry, 1999, 56(4):417-427 [5] Lopata V J. The manufacturing and repair of high performance composites using electron beam curing [J]. Materials Technology, 1999, 14(2):63-70 [6] Lioudmila G B, Catherine A B, Alexander N B, et al. Optimized electron beam curable aerospace adhesives International SAMPE Technical Conference. Covina, CA:Society for the Advancement of Material and Process Engineering, 2003:1981-1992 [7] Vastava R B. An assessment of e-beam technology for aircraft applications Proceedings of the 43rd International SAMPE Conference. Covina, CA:Society for the Advancement of Material and Process Engineering, 1998:1681-1690 [8] Parrot P. Electron beam curing at aerospatiale Proceedings of the 44th International SAMPE Symposium. Covina, CA:Society for the Advancement of Material and Process Engineering, 1999:1354-1358 [9] Saunders C, Lopata V, Barnard J, et al. Electron beam curing:taking good ideas to the manufacturing floor [J]. Radiation Physics and Chemistry, 2000, 57:441-445 [10] Berejka A J, Eberle C. Electron beam curing of composites in North America [J]. Radiation Physics and Chemistry, 2002, 63(3-6):551-556 [11] Boursereau F, Dupillier J M, Larnac G, et al. Advanced electron beam composites and modeling approach for spacecraft and transportation applications International SAMPE Symposium and Exhibition. Covina, CA:Society for the Advancement of Material and Process Engineering, 2000, 45:2235-2245 [12] Foedinger R, Schneider T, Grande R, et al. Development of electron beam curable composite motor cases International SAMPE Symposium and Exhibition. Covina, CA:Society for the Advancement of Material and Process Engineering, 2002, 47:570-584 [13] Lopata V J, Sidwell D R, Idgeon F E, et al. Preliminary test results for a type-trial repair on air Canada airbus aircraft fleet Proceedings of the 43rd International SAMPE Conference. Covina, CA:Society for the Advancement of Material and Process Engineering, 1998:1672-1680 [14] 隋刚,张佐光,袁宇慧,等. 增强纤维对环氧树脂基体电子束固化特征的影响研究 [J]. 复合材料学报, 2003, 20(2):1-6 Sui Gang, Zhang Zuoguang, Yuan Yuhui, et al. Study on effect of reinforce fiber on characteristic of electron beam curing in epoxy resin matrix [J]. Acta Materiae Compositae Sinica, 2003, 20(2):1-6 (in Chinese) [15] 刘玉文, 张志谦, 黄玉东, 等. 电子束固化复合材料界面 [J]. 复合材料学报, 2002, 19(3):16-20 Liu Yuwen, Zhang Zhiqian, Huang Yudong, et al. Interface of electron beam cured carbon fiber reinforced composites [J]. Acta Materiae Compositae Sinica, 2002, 19(3):16-20 (in Chinese)
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