浏览全部资源
扫码关注微信
1.中国兵器工业集团第53所,济南 250031
2.四川大学高分子科学与工程学院,成都 610065
3.高分子材料工程国家重点实验室,成都 610065
*钟蔚华,E-mail: 13854195750@163.com
纸质出版日期:2024-10-20,
网络出版日期:2024-07-25,
收稿日期:2024-05-28,
录用日期:2024-07-03
移动端阅览
梁晨, 张殿波, 刘薇, 罗龙波, 刘群, 孟昭瑞, 陈湘栋, 钟蔚华. 高性能芳杂环聚合物纤维制备技术研究进展. 高分子通报, 2024, 37(10), 1400–1413
Liang, C.; Zhang, D. B.; Liu, W.; Luo, L. B.; Liu, Q.; Meng, Z. R.; Chen, X. D; Zhong, W. H. Research progress in preparation of high performance aromatic heterocyclic polymer fibers. Polym. Bull. (in Chinese), 2024, 37(10), 1400–1413
梁晨, 张殿波, 刘薇, 罗龙波, 刘群, 孟昭瑞, 陈湘栋, 钟蔚华. 高性能芳杂环聚合物纤维制备技术研究进展. 高分子通报, 2024, 37(10), 1400–1413 DOI: 10.14028/j.cnki.1003-3726.2024.24.162.
Liang, C.; Zhang, D. B.; Liu, W.; Luo, L. B.; Liu, Q.; Meng, Z. R.; Chen, X. D; Zhong, W. H. Research progress in preparation of high performance aromatic heterocyclic polymer fibers. Polym. Bull. (in Chinese), 2024, 37(10), 1400–1413 DOI: 10.14028/j.cnki.1003-3726.2024.24.162.
随着我国军事装备、空天探测、光电交通等领域的快速发展,其对高性能有机纤维的性能要求不断提高。现有高性能芳杂环聚合物虽有足够优异的性能,使其从分子结构设计走向实际生产应用,但仍存在诸多缺陷,故当前亟待开发综合性能更好的高性能芳杂环聚合物纤维。本文简要介绍了含苯并咪唑结构的杂环共聚芳纶(芳纶Ⅲ)、聚对苯撑苯并二噁唑(poly(
p
-phenylene benzobisoxazole)
PBO)、聚2
5-二羟基-1
4-苯撑吡啶并二咪唑(poly-pyridobisimidazole
PIPD/M5)三种现有高性能芳杂环聚合物纤维分子结构与性能之间的内在关联,总结了三种纤维的制备工艺、应用范围及缺陷不足,综述了共聚改性制备新型芳杂环聚合物纤维的研究进展,并对高性能芳杂环聚合物未来的研发生产进行了展望。
The performance requirements for high-performance organic fibers are increasing with the rapid development of military equipment
air and spac
e exploration
optoelectronic transportation
and other fields. Although the existing high-performance aryl heterocyclic polymers have enough excellent performances to make it from the molecular structure design to practical production applications
there are still many defects
so there is an urgent need to develop a better overall performance of high-performance aryl heterocyclic polymer fibers. This paper briefly introduces the intrinsic correlation between the molecular structure and performance of three existing high-performance aryl heterocyclic polymer fibers
benzimidazole heterocyclic copolymerized aramid (aramid III) fibers
poly(
p
-phenylene benzobisoxazole) (PBO) fibers
and poly-pyridobisimidazole (PIPD/M5) fibers
summarizes the preparation process
application scope
and defects of the three kinds of fibers
and reviews the research progress of copolymerization modification for the preparation of new aryl heterocyclic polymer fibers and also looks ahead to the future research and development of high-performance aryl heterocyclic polymer production.
杂环芳香族聚酰胺纤维聚对苯撑苯并二噁唑纤维聚25-二羟基-14-苯撑吡啶并二咪唑纤维化学共聚改性分子结构设计
Benzimidazole heterocyclic copolymerized aramid fibersPoly(p-phenylene benzobisoxazole) fibersPoly-pyridobisimidazole fibersChemical copolymerization modificationMolecular structure design
Wei, H. Z.; Zhong, W. H.; Guang, Y.Research and application progress of polymer composites in armor protection. J. Mater. Eng., 2020, 48, 25–32.
Sikkema, D. J.Chapter 4: Rigid-chain polymers: aromatic polyamides, heterocyclic rigid rod polymers, and polyesters. Adv. Ind. Eng. Polym. Res., 2022, 5(2), 80–89.
Pokholok, T. V.; Lomakin, S. M.; Kalinina, I. G.; Filatova, A. G.Effect of nitrogen dioxide on strength and heat resistance of poly-p-aramid fibers. Fiber. Chem., 2024, 55(5), 299–307.
Tikhonov, I. V.; Sokolov, V. V.; Shchetinin, V. M.; Chernykh, T. E.; Kutyurin, A. Y.; Bakulin, D. A.Supramolecular structure of rusar-S and rusar-NT aramid fibers. Fiber. Chem., 2019, 51(2), 101–104.
Shebanov, M. S.; Bova, V. G.; Shiyanova, L. B.; Kalinina, I. G.Determination of shear strength at the fiber-matrix interface in an organic plastic. Fiber. Chem., 2022, 54(4), 240–242.
孙友德, 刘庆备, 梅李超. 杂环芳纶及其杂环单体(五). 高科技纤维与应用, 2007, 32(6), 9–13.
Yang, C.; Wu, H.; Dai, Y.; Tang, S. Y.; Luo, L. B.; Liu, X. Y.Self-enhancement in aramid fiber by filling free hydrogen bonding interaction sites in macromolecular chains with its oligomer. Polymer, 2019, 180, 121687.
陈超峰, 王凤德, 彭涛. 对位芳纶及其复合材料发展思考. 化工新型材料, 2010, 38(6), 1–5.
彭涛, 刘克杰, 陈超峰, 邱锋, 王凤德, 王煦怡, 杨文良, 王成东, 龚维友. 芳纶Ⅲ低成本化制备及应用工程化进展. 高科技纤维与应用, 2015, 40(5), 21–26.
Li, T.; Wang, Z. X.; Zhang, H.; Cao, Y. T.; Hu, Z. M.; Yu, J. R.; Wang, Y.Sulfone-functionalized poly(p-phenylene terephthalamide) copolymer fibers with improved inter-facial adhesion to epoxy matrices. High Perform. Polym., 2021, 33(8), 948–959.
Liu, Y. D.; Lu, S. Y.; Luo, J.; Zhao, Y. Q.; He, J. S.; Liu, C. L.; Chen, Z. B.; Yu, X. Q.Research progress of antistatic-reinforced polymer materials: a review. Polym. Adv. Technol., 2023, 34(4), 1393–1404.
Chen, C. F.; Wang, X. Y.; Wang, F. D.; Peng, T.Preparation and characterization of para-aramid fibers with the main chain containing heterocyclic units. J. Macromol. Sci. Part B, 2020, 59(2), 90–99.
Mahapatra, A.; O’Riorden, S. Design, manufacture, and deployment of buoyant cables in underwater applications. OCEANS 2021: San Diego-Porto, San Diego, CA, USA, 2021, 1–4.
Zhang, H.; Luo, Z.; Zhong, J. C.; Wang, X. Y.; Xu, Y. H.Effect of long aramid fiber on the properties of styrene-butadiene rubber composites based on extrusion. Fatigue Fract. Eng. Mater. Struct., 2023, 46(2), 527–539.
Liu, K. J.; Liang, J. S.; Mao, M.; Peng, T.; Jiang, M. J.Study on continuous heat treatment of Aramid III. J. Eng. Fiber. Fabr., 2022, 17.
Ding, X. M.; Kong, H. J.; Qiao, M. M.; Hu, Z. F.; Yu, M. H.Effect of different pressures on microstructure and mechanical performance of F-III fibers in supercritical carbon dioxide fluid. Materials, 2019, 12(5), 690.
马福民, 佘家全, 梁劲松, 严翔, 刘克杰, 彭涛, 姜猛进. 国内外对位芳纶产品结构及性能对比分析研究. 塑料工业, 2020, 48(11), 94–99.
Chin, J.; Forster, A.; Clerici, C.; Sung, L.; Oudina, M.; Rice, K.Temperature and humidity aging of poly(p-phenylene-2,6-benzobisoxazole) fibers: chemical and physical characterization. Polym. Degrad. Stabil., 2007, 92(7), 1234–1246.
Zhang, J. T.; Cui, Y. H.; Li, X. Q.; Yao, H. Q.; Zhao, D. M.; Jin, N. R.; Gao, J. R.Theoretical study and experimental verification of a novel conjugated and coplanar HPBO polymers with hydrogen bond structure. Polymer, 2019, 160, 11–18.
Stockdale, T. A.; Cole, D. P.; Staniszewski, J. M.; Roenbeck, M. R.; Papkov, D.; Lustig, S. R.; Dzenis, Y. A.; Strawhecker, K. E.Hierarchical mechanisms of lateral interactions in high-performance fibers. ACS Appl. Mater. Interfaces, 2020, 12(19), 22256–22267.
Kitagawa, T.Novel fine structures in poly-p-phenylenebenzobisoxazole (PBO) fibers induced by water vapor, hot water, and nonaqueous coagulation iii. Random and radial preferential orientations of the crystal b-axis. J. Macromol. Sci. Part B, 2016, 55(12), 1159–1172.
杨文良, 彭涛, 范新年, 许伟, 付兴伟, 陈怿咨. 保存环境对PBO纤维结构与性能的影响. 合成纤维, 2023, 52(9), 21–24.
史纪友, 李磊, 缪金根, 王贺团, 沈志刚. PBO纤维的开发及应用. 合成纤维工业, 2017, 40(3), 56–62.
Jiang, Z. X.; Geng, L.; Huang, Y. D.Preparation of superhydrophobic poly-p-phenylenebenzobisoxazole (PBO) fiber bundles. Appl. Surf. Sci., 2011, 257(8), 3455–3462.
Gao, Z. C.; Wang, J. Q.; Feng, L. F.; Gu, X. P.; Duan, J. T.; Zhang, C. L.Flow-accelerated polycondensation reaction to prepare rigid rodlike poly(p-phenylene-cis-benzobisoxazole). Chem. Eng. Process., 2022, 176, 108972.
Chen, Y.; Zhuang, Q. X.; Liu, X. Y.; Liu, J.; Lin, S. L.; Han, Z. W.Preparation of thermostable PBO/graphene nanocomposites with high dielectric constant. Nanotechnology, 2013, 24(24), 245702.
Li, J.; Wang, W.; Zhao, L.; Li, S.; Yang, L.; Huang, Y.In situ synthesis of PBO-α-(amino phthalocyanine copper) composite fiber with excellent UV-resistance and tensile strength. J. Appl. Polym. Sci., 2018, 135(48), e46870.
Kang, C. S.; Jee, M. H.; Yeo, M. J.; Baik, D. H.Effects of drawing and heat-treatment conditions on the structure and mechanical properties of polyhydroxyamide and polybenzoxazole fibers. Fiber. Polym., 2018, 19(8), 1626–1631.
刘亦冰, 杨建忠, 祖文菊, 包宗尧. 密封感压膜片用PBO纤维耐高温性能的研究. 合成纤维, 2021, 50(11), 23–26.
程庆魁. 不同纤维在四丙氟橡胶中的应用研究. 有机氟工业, 2023, (4), 1–3.
Gu, J. W.; Li, Y.; Liang, C. B.; Tang, Y. S.; Tang, L.; Zhang, Y. K.; Kong, J.; Liu, H.; Guo, Z. H.Synchronously improved dielectric and mechanical properties of wave-transparent laminated composites combined with outstanding thermal stability by incorporating iysozyme/POSS functionalized PBO fibers. J. Mater. Chem. C, 2018, 6(28), 7652–7660.
李莹新, 莫纪安, 王秀云, 郭亚林. 固体火箭发动机壳体复合材料研究进展. 航天制造技术, 2020(4), 65–69.
Luo, Y.; Miao, Y. P.; Wang, H. M.; Dong, K.; Hou, L.; Xu, Y. Y.; Chen, W. C.; Zhang, Y.; Zhang, Y. Y.; Fan, W.Laser-induced Janus graphene/poly(p-phenylene benzobisoxazole) fabrics with intrinsic flame retardancy as flexible sensors and breathable electrodes for fire-fighting field. Nano Res., 2023, 16(5), 7600–7608.
Hu, W. Y.; Yu, K. X.; Zheng, Q. N.; Hu, Q. L.; Cao, C. F.; Cao, K.; Sun, W. F.; Gao, J. F.; Shi, Y. Q.; Song, P. G.; Tang, L. C.Intelligent cyclic fire warning sensor based on hybrid PBO nanofiber and montmorillonite nanocomposite papers decorated with phenyltriethoxysilane. J. Colloid Interface Sci., 2023, 647, 467–477.
Liu, Z.; Fan, X. L.; Zhang, J. L.; Chen, L. X.; Tang, Y. S.; Kong, J.; Gu, J. W.PBO fibers/fluorine-containing liquid crystal compound modified cyanate ester wave-transparent laminated composites with excellent mechanical and flame retardance properties. J. Mater. Sci. Technol., 2023, 152, 16–29.
Hu, Y. S.; Wei, Y.; Han, G.; Zhang, J. H.; Sun, G. Y.; Hu, X. Z.; Cheng, F.Comparison of impact resistance of carbon fibre composites with multiple ultra-thin CNT, aramid pulp, PBO and graphene interlayers. Compos. Part A Appl. Sci. Manuf., 2022, 155, 106815.
王涛, 李金辉, 赵雅绪, 朱良, 张少霞, 张国平, 孙蓉, 汪正平. 光敏聚苯并噁唑的研究现状与发展趋势. 材料导报, 2020, 34(19), 19183–19189.
Horikawa, N.; Kawano, Y.; Miyajima, T.; Nomura, Y.; Kitagawa, T.; Ueno, A.; Sakaida, A.; Mori, T.Tensile strength of poly-p-phenylene benzobisoxazole (PBO) fiber with kinking damage. Procedia Structural Integrity, 2016, 2, 293–300.
Ido, M.; Kimura, R.; Kobayashi, H.; Shioya, M.Fatigue mechanism analysed based on the changes in microstructure and axial compression strength of a poly(p-phenylene-2,6-benzobisoxazole) fiber. J. Fiber. Sci. Technol., 2019, 75(12), 186–192.
Zeng, J.; Kong, H.; Du, X.; Xu, Q.; Jiang, F.; Li, B.; Yu, M.Surface modification of PBO fibers with 2, 2-bis(3-amino-4-hydroxyphenyl) hexafluoropropane in supercritical carbon dioxide for enhancing interfacial strength. Mater. Today Chem., 2021, 20, 100426.
Song, B.; Liu, Z. D.; Chen, L.; Ma, L. C.; Huang, Y. D.Poly(p-phenylene benzobisoxazole) fiber/epoxy composites reinforced with carbon nanotubes and graphene oxide for enhanced interfacial adhesion and mechanical strength. ACS Appl. Nano Mater., 2021, 4(11), 12158–12169.
Jin, J. H.; Li, G.; Yang, S. L.; Jiang, J. M.Effects of light stabilizer on the ultraviolet stability of poly-p-phenylenebenzobisoxazole (PBO) fibers. Iran. Polym. J., 2012, 21(10), 739–745.
刘姝瑞, 谭艳君, 霍倩, 孙磊磊, 李文燕, 张明宇. 紫外UVB辐照PBO纤维老化机理及性能研究. 染整技术, 2017, 39(1), 14–19.
Zhang, T.; Jin, J. H.; Yang, S. L.; Li, G.; Jiang, J. M.Preparation and properties of novel PIPD fibers. Chin. Sci. Bull., 2010, 55(36), 4203–4207.
Lustig, S. R.; Allen, S. R.; Londono, J. D.; Lowery, J. L.Mechanistic impact of water on polypyridobisimidazole (M5) structure and properties. Polym. Int., 2021, 70(6), 795–802.
付兴伟, 许伟, 范新年, 黄治川. PIPD纤维的研究现状及发展趋势. 科技创新与应用, 2021, (9), 63–67.
Lammers, M.; Klop, E. A.; Northolt, M. G.; Sikkema, D. J.Mechanical properties and structural transitions in the new rigid-rod polymer fibre PIPD (`M5') during the manufacturing process. Polymer, 1998, 39(24), 5999–6005.
黄治川, 付兴伟, 胡娟, 范新年, 许伟, 赵亮. 高性能PIPD纤维的研究进展. 合成纤维, 2016, 45(3), 12–16.
Picken, S. J.; Sikkema, D. J.; Boerstoel, H.; Dingemans, T. J.; van der Zwaag, S.Liquid crystal main-chain polymers for high-performance fibre applications. Liq. Cryst., 2011, 38(11-12), 1591–1605.
吴飞舟, 邱国栋, 王斌, 范新年, 向东, 周万立, 武元鹏, 赵春霞, 李辉, 付兴伟, 李云涛. PBO/PIPD纳米纤维复合薄膜的制备及性能研究. 塑料工业, 2023, 51(5), 175–180.
Chae, H.G.; Kumar, S.Rigid-rod polymeric fibers. J. Appl. Polym. Sci., 2006, 100(1), 791–802.
Klop, E. A.; Lammers, M.XRD study of the new rigid-rod polymer fibre PIPD. Polymer, 1998, 39(24), 5987–5998.
Luo, L. B.; Wang, Y. Z.; Dai, Y.; Yuan, Y. H.; Meng, C. B.; Cheng, Z.; Wang, X.; Liu, X. Y.The introduction of asymmetric heterocyclic units into poly(p-phenylene terephthalamide) and its effect on microstructure, interactions and properties. J. Mater. Sci., 2018, 53(18), 13291–13303.
陈超峰, 彭涛, 王凤德, 兰江, 杨文良, 龚维友. 一种含氯高性能杂环芳纶及其制备方法和应用. 中国专利, CN 104357939 B, 2016-08-31.
李兰英, 周万立, 彭涛, 林志娇, 何鑫业. 一种石墨烯改性高强高模杂环芳纶的制备方法, 中国专利, CN 115216857B, 2023-12-22.
Zhang, D. Y.; Yu, W. H.; Ni, Y. L.; Hao, X. Y.; Lu, F. H.; Xu, H. J.Preparation and properties of antistatic high-strength aramid III/MWCNTs-OH fibers. Front. Mater., 2023, 10, 1309012.
Luo, L. B.; Yuan, Y. H.; Dai, Y.; Cheng, Z.; Wang, X.; Liu, X. Y.The novel high performance aramid fibers containing benzimidazole moieties and chloride substitutions. Mater. Des., 2018, 158, 127–135.
刘娇. 含氯Armos薄膜的制备与性能研究. 哈尔滨: 哈尔滨工业大学, 2018.
孙秋, 刘娇, 陈向群. 含氯高性能杂环芳香族聚酰胺纤维的制备方法. 中国专利, CN 107779975B, 2019-11-15.
王阳, 赵蕾, 姜波, 宋元军, 黄玉东. PIPD-ODA复合纤维的制备与表征. 化学与粘合, 2017, 39(3), 176–179.
高桐. 2-(4-氨基苯基)-5-氨基苯并咪唑的合成及其高性能聚合物的研究. 哈尔滨: 黑龙江大学, 2016.
Wang, Y.; Song, Y. J.; Zhao, L.; Rahoui, N.; Jiang, B.; Huang, Y. D.An investigation of the high performance of a novel type of benzobisoxazole fiber based on 3, 3-diaminobenzidine. Polymers, 2016, 8(12), 420.
姜婉嘉. 高性能PIPD纤维的石墨烯改性及其结构与性能研究. 太原: 中北大学, 2018.
许宋杰. PIPD的制备及其共聚改性研究. 上海: 东华大学, 2023.
张展腾. PIPD-POSS共聚物膜材料制备及结构与性能研究. 哈尔滨: 哈尔滨工业大学, 2021.
Jang, Y. W.; Min, B. G.; Yoon, K. H.Enhancement in compressive strength and UV ageing-resistance of poly(p-phenylene benzobisoxazole) nanocomposite fiber containing modified polyhedral oligomeric silsesquioxane. Fiber. Polym., 2017, 18(3), 575–581.
Wang, Q. W.; Yoon, K. H.; Min, B. G.Chemical and physical modification of poly(p-phenylene benzobisoxazole) polymers for improving properties of the PBO fibers. I. Ultraviolet-ageing resistance of PBO fibers with naphthalene moiety in polymer chain. Fiber Polym., 2015, 16(1), 1–7.
Li, Z. F.; Lu, F.; Lu, S. S.; Liu, H.; An, B. Y.; Wang, Y. H.; Huang, Y. D.; Hu, Z.Fabrication of uvioresistant poly(p-phenylene benzobisoxazole) fibers based on hydrogen bond. J. Appl. Polym. Sci., 2020, 137(9), e48432.
Wang, Y.; Wang, D.; Song, Y. J.; Zhao, L.; Rahoui, N.; Jiang, B.; Huang, Y. D.Investigation of the mechanical properties of the modified poly(p-phenylene benzobisoxazole) fibers based on 2-(4-aminophenyl)-1H-benzimidazol-5-amine. High Perform. Polym., 2018, 30(5), 511–518.
Li, N.; Hu, Z.; Huang, Y. D.Preparation and chara-cterization of nanocomposites of poly(p-phenylene benzobisoxazole) with aminofunctionalized graphene. Polym. Compos., 2018, 39(8), 2969–2976.
0
浏览量
0
下载量
0
CSCD
关联资源
相关文章
相关作者
相关机构