化工学报 ›› 2022, Vol. 73 ›› Issue (6): 2352-2369.DOI: 10.11949/0438-1157.20220088
曾欣欣1,2(),白慧娟1(),俞娟3,黄培3,杨超1,2,徐俊波1()
收稿日期:
2022-01-17
修回日期:
2022-03-04
出版日期:
2022-06-05
发布日期:
2022-06-30
通讯作者:
白慧娟,徐俊波
作者简介:
曾欣欣(1998—),女,硕士研究生,基金资助:
Xinxin ZENG1,2(),Huijuan BAI1(),Juan YU3,Pei HUANG3,Chao YANG1,2,Junbo XU1()
Received:
2022-01-17
Revised:
2022-03-04
Online:
2022-06-05
Published:
2022-06-30
Contact:
Huijuan BAI,Junbo XU
摘要:
基于面向空天动力用聚酰亚胺树脂基复合材料的背景,分析了复合材料面临的介尺度结构设计与调控的关键科学问题及研究思路。综述了国内外热塑性聚酰亚胺构-效设计、复合材料微/纳复合界面强化以及健康结构动态监测的基础研究,并提出了未来的发展趋势。
中图分类号:
曾欣欣, 白慧娟, 俞娟, 黄培, 杨超, 徐俊波. 面向空天动力用聚酰亚胺树脂基复合材料介尺度结构与调控[J]. 化工学报, 2022, 73(6): 2352-2369.
Xinxin ZENG, Huijuan BAI, Juan YU, Pei HUANG, Chao YANG, Junbo XU. Mesoscale structure and regulation of polyimide resin matrix composites for hypersonic aerospace[J]. CIESC Journal, 2022, 73(6): 2352-2369.
1 | 程功, 肖军, 李建军. 树脂基复合材料在机载导弹领域的应用[J]. 航空制造技术, 2010(17): 86-88. |
Cheng G, Xiao J, Li J J. Application of resin matrix composites on airborne missile[J]. Aeronautical Manufacturing Technology, 2010(17): 86-88. | |
2 | 刘存生, 陈钰玮, 曹景茹, 等. 热塑性聚酰亚胺的研究及应用进展[J]. 绝缘材料, 2021, 54(4): 1-7. |
Liu C S, Chen Y W, Cao J R, et al. Research and application progress of thermoplastic polyimide[J]. Insulating Materials, 2021, 54(4): 1-7. | |
3 | Liu X, Cao X W, He G J, et al. Preparation and properties of a novel quaternary copolymerized thermoplastic polyimide[J]. Express Polymer Letters, 2019, 13(6): 524-532. |
4 | 王倩倩, 周燕萍, 郑会保, 等. 耐高温聚酰亚胺树脂及其复合材料的研究及应用[J]. 工程塑料应用, 2019, 47(8): 144-147. |
Wang Q Q, Zhou Y P, Zheng H B, et al. Research and application of high temperature polyimide and its composite materials[J]. Engineering Plastics Application, 2019, 47(8): 144-147. | |
5 | 崔晓萍, 朱光明. 聚酰亚胺纳米复合材料研究新进展[J]. 材料导报, 2015, 29(13): 12-17. |
Cui X P, Zhu G M. Research progress of polyimide nano-composite materials[J]. Materials Review, 2015, 29(13): 12-17. | |
6 | 项明悦. 碳纤维增强热塑性聚酰亚胺复合材料的分子模拟与性能研究[D]. 哈尔滨: 哈尔滨工业大学, 2020. |
Xiang M Y. Molecular simulation and properties of carbon fiber reinforced thermoplastic polyimide composites[D]. Harbin: Harbin Institute of Technology, 2020. | |
7 | 邢开, 徐海兵, 颜春, 等. 碳纤维增强高性能热塑性复合材料界面改性的研究进展[J]. 玻璃钢/复合材料, 2019(5): 110-115. |
Xing K, Xu H B, Yan C, et al. Research progress on interfacial properties of carbon fiber reinforced high performance thermoplastic composites[J]. Fiber Reinforced Plastics/Composites, 2019(5): 110-115. | |
8 | 张荣, 裴学良, 席先锋, 等. 臭氧改性碳纤维/聚酰亚胺复合材料的制备与性能研究[J]. 玻璃钢/复合材料, 2019(3): 21-25. |
Zhang R, Pei X L, Xi X F, et al. Study on the preparation and interface performance of O3-oxized carbon fiber/polyimide composites[J]. Fiber Reinforced Plastics/Composites, 2019(3): 21-25. | |
9 | 王奕首, 李煜坤, 吴迪, 等. 复合材料液体成型固化监测技术研究进展[J]. 航空制造技术, 2017, 60(19): 50-59. |
Wang Y S, Li Y K, Wu D, et al. Progress on cure monitoring for liquid composite molding[J]. Aeronautical Manufacturing Technology, 2017, 60(19): 50-59. | |
10 | 卢少微, 陈铎, 王晓强. 聚合物基复合材料制造过程在线监测技术研究进展[J]. 航空制造技术, 2017, 60(19): 72-77. |
Lu S W, Chen D, Wang X Q. Review of in situ cure monitoring techniques for polymer matrix composite manufacturing process[J]. Aeronautical Manufacturing Technology, 2017,60(19): 72-77. | |
11 | 孙守政. 复合材料铺丝构件多尺度力学特性及其协同工艺优化研究[D]. 哈尔滨: 哈尔滨工业大学, 2019. |
Sun S Z. Study on multiscale mechanical performance and collaborative process optimization of composites made by automated fiber placement[D]. Harbin: Harbin Institute of Technology, 2019. | |
12 | Nascimento M, Inácio P, Paixão T, et al. Embedded fiber sensors to monitor temperature and strain of polymeric parts fabricated by additive manufacturing and reinforced with NiTi wires[J]. Sensors, 2020, 20(4): 1122. |
13 | Tsukada T, Minakuchi S, Takeda N. Identification of process-induced residual stress/strain distribution in thick thermoplastic composites based on in situ strain monitoring using optical fiber sensors[J]. Journal of Composite Materials, 2019, 53(24): 3445-3458. |
14 | 丁孟贤. 聚酰亚胺:化学、结构与性能的关系及材料[M]. 2版. 北京: 科学出版社, 2012: 913. |
Ding M X. Polyimides: the Relationship and Materials between Chemistry, Structure and Properties[M]. 2nd ed. Beijing: Science Press, 2012: 913. | |
15 | Grosso V, Vuono D, Bahattab M A, et al. Polymeric and mixed matrix polyimide membranes[J]. Separation and Purification Technology, 2014, 132: 684-696. |
16 | Takekoshi T, Kochanowski J E, Manello J S, et al. Polyetherimides(Ⅱ): High-temperature solution polymerization[J]. Journal of Polymer Science: Polymer Symposia, 1986, 74(1): 93-108. |
17 | 彭克全. 日本研制出热塑性聚酰亚胺[J]. 化工新型材料, 1993, 21(8): 40. |
Peng K Q. The thermoplastic polyimide developed by Japan [J]. New Chemical Materials, 1993, 21(8): 40. | |
18 | Dorsey K D, Desai P, Abhiraman A S, et al. Structure and properties of melt-extruded LaRC-IA (3,4'-ODA 4,4'-ODPA) polyimide fibers[J]. Journal of Applied Polymer Science, 1999, 73(7): 1215-1222. |
19 | Hou T H, Bryant R G. Processing and properties of IM7/LARCTM-SCI composite[J]. High Performance Polymers, 1996, 8(2): 169-184. |
20 | Wang Y, Goh S H, Chung T S. Miscibility study of Torlon® polyamide-imide with Matrimid® 5218 polyimide and polybenzimidazole[J]. Polymer, 2007, 48(10): 2901-2909. |
21 | 赵慧文. 由异构的三苯二醚二酐(3,3'-HQDPA/4,4'-HQDPA)合成的热塑性聚酰亚胺[D]. 宁波: 宁波大学, 2015. |
Zhao H W. Synthesis and characterization of thermoplastic polyimides from isomeric hydroquinone diphthalic dianhydrides(3,3'-HQDPA and 4,4'-HQDPA)[D]. Ningbo: Ningbo University, 2015. | |
22 | 郭锋, 薛瑞, 冯成, 等. 双酚A型二醚二酐的制备[J]. 化工科技市场, 2010, 33(7): 9-11. |
Guo F, Xue R, Feng C, et al. Preparation of 2, 2-bis[4-(3, 4-dicarboxyphenoxy) phenyl] propane dianhydride[J]. Chemical Technology Market, 2010, 33(7): 9-11. | |
23 | 柯昌美, 王茜, 汪振忠, 等. 双酚A型聚酰亚胺单体BAPP的合成与表征[J]. 化工新型材料, 2012, 40(12): 94-96, 103. |
Ke C M, Wang Q, Wang Z Z, et al. Synthesis and characterization of bisphenol a type polyimide monomer BAPP[J]. New Chemical Materials, 2012, 40(12): 94-96, 103. | |
24 | Zhai L, Yang S Y, Fan L. Preparation and characterization of highly transparent and colorless semi-aromatic polyimide films derived from alicyclic dianhydride and aromatic diamines[J]. Polymer, 2012, 53(16): 3529-3539. |
25 | Hasegawa M, Watanabe Y, Tsukuda S, et al. Solution-processable colorless polyimides with ultralow coefficients of thermal expansion for optoelectronic applications[J]. Polymer International, 2016, 65(9): 1063-1073. |
26 | Liu J G, Nakamura Y, Ogura T, et al. Optically transparent sulfur-containing polyimide-TiO2 nanocomposite films with high refractive index and negative pattern formation from poly(amic acid)-TiO2 nanocomposite film[J]. Chemistry of Materials, 2008, 20(1): 273-281. |
27 | Liu J G, Nakamura Y, Shibasaki Y, et al. Synthesis and characterization of highly refractive polyimides from 4, 4'-thiobis [(p-phenylenesulfanyl)aniline] and various aromatic tetracarboxylic dianhydrides[J]. Journal of Polymer Science Part A: Polymer Chemistry, 2007, 45(23): 5606-5617. |
28 | Liu J G, Nakamura Y, Shibasaki Y, et al. High refractive index polyimides derived from 2,7-bis(4-aminophenylenesulfanyl)thianthrene and aromatic dianhydrides[J]. Macromolecules, 2007, 40(13): 4614-4620. |
29 | Hasegawa M, Ishigami T, Ishii J. Optically transparent aromatic poly(ester imide)s with low coefficients of thermal expansion (1): Self-orientation behavior during solution casting process and substituent effect[J]. Polymer, 2015, 74: 1-15. |
30 | Nam K H, Kim H, Choi H K, et al. Thermomechanical and optical properties of molecularly controlled polyimides derived from ester derivatives[J]. Polymer, 2017, 108: 502-512. |
31 | 舒亚莎, 周嘉珊, 赵莎莎, 等. 双酚A型二胺和二酐合成可溶性聚酰亚胺的研究[J]. 胶体与聚合物, 2011, 29(1): 15-18. |
Shu Y S, Zhou J S, Zhao S S, et al. Synthesis and properties of soluble polyimide based on bisphenol A diamine and dianhydride monomer[J]. Chinese Journal of Colloid & Polymer, 2011, 29(1): 15-18. | |
32 | Zhuang Y B, Seong J G, Lee Y M. Polyimides containing aliphatic/alicyclic segments in the main chains[J]. Progress in Polymer Science, 2019, 92: 35-88. |
33 | Rogan Y, Starannikova L, Ryzhikh V, et al. Synthesis and gas permeation properties of novel spirobisindane-based polyimides of intrinsic microporosity[J]. Polymer Chemistry, 2013, 4(13): 3813. |
34 | Liaw D J, Chen I W, Yang M C. Highly organosoluble polyimides with pendent cyclododecane group: synthesis and characterization[J]. Macromolecular Chemistry and Physics, 2002, 203(15): 2170-2176. |
35 | Watanabe Y, Sakai Y, Shibasaki Y, et al. Synthesis of wholly alicyclic polyimides from N-silylated alicyclic diamines and alicyclic dianhydrides[J]. Macromolecules, 2002, 35(6): 2277-2281. |
36 | Zhuang Y B, Liu X Y, Gu Y. Molecular packing and properties of poly(benzoxazole-benzimidazole-imide) copolymers[J]. Polymer Chemistry, 2012, 3(6): 1517. |
37 | Chern Y T. Low dielectric constant polyimides derived from novel 1,6-bis[4-(4-aminophenoxy)phenyl] diamantane[J]. Macromolecules, 1998, 31(17): 5837-5844. |
38 | Chern Y T, Shiue H C. Low dielectric constants of soluble polyimides derived from the novel 4, 9-bis[4-(4-aminophenoxy)phenyl] diamantane[J]. Macromolecules, 1997, 30(19): 5766-5772. |
39 | Chern Y T. High subglass transitions appearing in the rigid polyimides derived from the novel 1,6-bis(4-aminophenyl)diamantane[J]. Macromolecules, 1998, 31(6): 1898-1905. |
40 | Chern Y T, Shiue H C. Low dielectric constants of soluble polyimides based on adamantane[J]. Macromolecules, 1997, 30(16): 4646-4651. |
41 | Critchley J P, Grattan P A, White M A, et al. Perfluoroalkylene-linked aromatic polyimides(Ⅰ): Synthesis, structure, and some general physical characteristics[J]. Journal of Polymer Science Part A-1: Polymer Chemistry, 1972, 10(6): 1789-1807. |
42 | Auman B C, Higley D P, Scherer K V, et al. Synthesis of a new fluoroalkylated diamine, 5-[1H,1H-2-bis(trifluoromethyl)- heptafluoropentyl]-1,3-phenylenediamine, and polyimides prepared therefrom[J]. Polymer, 1995, 36(3): 651-656. |
43 | Hsiao S H, Yu C H. Aromatic poly(ether imide)s bearing isopropylidene or hexafluoroisopropylidene links in the main chain[J]. Polymer Journal, 1997, 29(11): 944-948. |
44 | 韩青霞, 宋丽贤, 张平, 等. 含氟二胺的合成及透明聚酰亚胺薄膜的性能研究[J]. 绝缘材料, 2013, 46(3): 51-55. |
Han Q X, Song L X, Zhang P, et al. Synthesis of fluorinated diamine and properties study of transparent polyimide film[J]. Insulating Materials, 2013, 46(3): 51-55. | |
45 | 李昶红, 刘玲, 李薇. 一种新型含氟聚酰亚胺聚合物的合成及性能研究[J]. 衡阳师范学院学报, 2019, 40(3): 45-49. |
Li C H, Liu L, Li W. Synthesis and properties of a new fluorinated polyimide polymer[J]. Journal of Hengyang Normal University, 2019, 40(3): 45-49. | |
46 | 闫欠, 包维维, 张少丹. 含氟聚酰亚胺的制备及性能研究[J]. 广东化工, 2018, 45(7): 20-21, 37. |
Yan Q, Bao W W, Zhang S D. Preparation and properties of fluorinated polyimide[J]. Guangdong Chemical Industry, 2018, 45(7): 20-21, 37. | |
47 | 刘庆民. 含脂环及氟化结构聚酰亚胺材料的合成及其性能的研究[D]. 南昌: 南昌大学, 2018. |
Liu Q M. Synthesis and properties studies on polyimides containing cyclohexanylmethyl and fluorinated structures[D]. Nanchang: Nanchang University, 2018. | |
48 | Kim S D, Lee S, Heo J, et al. Soluble polyimides with trifluoromethyl pendent groups[J]. Polymer, 2013, 54(21): 5648-5654. |
49 | Yin D X, Li Y F, Shao Y, et al. Synthesis and characterization of soluble polyimides based on trifluoromethylated aromatic dianhydride and substitutional diaminetriphenylmethanes[J]. Journal of Fluorine Chemistry, 2005, 126(5): 819-823. |
50 | 余彬, 周远鹏, 高萍, 等. 一种不对称芳香二胺单体及其聚酰亚胺的合成与表征[J]. 高分子材料科学与工程, 2019, 35(9): 14-20. |
Yu B, Zhou Y P, Gao P, et al. Synthesis and characterization of aromatic diamine and its polyimides with asymmetric structure and trifluoromethyl substitution[J]. Polymer Materials Science & Engineering, 2019, 35(9): 14-20. | |
51 | 蒋建军, 姜鹏飞, 鲁峰, 等. 新型三联苯刚性二胺合成及透明聚酰亚胺应用[J]. 光电技术应用, 2020, 35(2): 49-55. |
Jiang J J, Jiang P F, Lu F, et al. Synthesis of novel rigid terphenyl diamine and application in transparent polyimide[J]. Electro-Optic Technology Application, 2020, 35(2): 49-55. | |
52 | Zhang X L, Sheng S R, Pan Y, et al. Organosoluble, low dielectric constant and highly transparent fluorinated pyridine-containing poly(ether imide)s derived from new diamine: 4-(4-trifluoromethyl)phenyl-2,6-bis[4-(4-amino-2-trifluoromethylphenoxy)phenyl] pyridine[J]. Journal of Macromolecular Science, Part A, 2019, 56(3): 234-244. |
53 | Wu F, Zhou X P, Yu X H. Synthesis and characterization of novel star-branched polyimides derived from 2, 2-bis[4-(2, 4-diaminophenoxy)phenyl] hexafluoropropane[J]. RSC Advances, 2017, 7(57): 35786-35794. |
54 | Sulub-Sulub R, Loría-Bastarrachea M I, Vázquez-Torres H, et al. Highly permeable polyimide membranes with a structural pyrene containing tert-butyl groups: synthesis, characterization and gas transport[J]. Journal of Membrane Science, 2018, 563: 134-141. |
55 | Huang X H, Huang W, Liu J Y, et al. Synthesis of highly soluble and transparent polyimides[J]. Polymer International, 2012, 61(10): 1503-1509. |
56 | Liu C J, Pei X L, Huang X H, et al. Novel non-coplanar and tertbutyl-substituted polyimides: solubility, optical, thermal and dielectric properties[J]. Chinese Journal of Chemistry, 2015, 33(2): 277-284. |
57 | Hsiao S H, Wang H M, Chen W J, et al. Synthesis and properties of novel triptycene-based polyimides[J]. Journal of Polymer Science Part A: Polymer Chemistry, 2011, 49(14): 3109-3120. |
58 | Yi M H, Huang W X, Lee B J, et al. Synthesis and characterization of soluble polyimides from 2, 2-bis(4-aminophenyl)cycloalkane derivatives[J]. Journal of Polymer Science Part A: Polymer Chemistry, 1999, 37(17): 3449-3454. |
59 | 郝继璨. 芴基聚酰亚胺及其热致重排聚合物的制备与性能研究[D]. 鞍山: 辽宁科技大学, 2018. |
Hao J C. Preparation and properties of fluorene based polyimide and thermally rearranged polymer[D]. Anshan: University of Science and Technology Liaoning, 2018. | |
60 | Zhang T, Pan Y, Song C, et al. High optical transparency, low dielectric constant and light color of organosoluble fluorinated polyimides based on 10, 10-bis[4-(4-amino-3-trifluoromethylphenoxy)phenyl]-9(10H)-anthrone[J]. Polymer Bulletin, 2020, 77(8): 4077-4094. |
61 | Liu Y W, Zhou Z X, Qu L J, et al. Exceptionally thermostable and soluble aromatic polyimides with special characteristics: intrinsic ultralow dielectric constant, static random access memory behaviors, transparency and fluorescence[J]. Materials Chemistry Frontiers, 2017, 1(2): 326-337. |
62 | 刘燕峰, 包建文, 益小苏, 等. 基于异构联苯二酐的热塑性聚酰亚胺性能研究[J]. 工程塑料应用, 2012, 40(3): 9-13. |
Liu Y F, Bao J W, Yi X S, et al. Properties study of thermoplastic polyimides based on isomeric biphenyl dianhydrides[J]. Engineering Plastics Application, 2012, 40(3): 9-13. | |
63 | Rozhanskii I, Okuyama K, Goto K. Synthesis and properties of polyimides derived from isomeric biphenyltetracarboxylic dianhydrides[J]. Polymer, 2000, 41(19): 7057-7065. |
64 | 范卫锋, 阎敬灵, 孟祥胜, 等. 基于2-苯基-4, 4'-二氨基二苯醚的异构聚酰亚胺[J]. 化工新型材料, 2016, 44(8): 69-71, 77. |
Fan W F, Yan J L, Meng X S, et al. Isomeric polyimide derived from 2-phenyl-4, 4'-diaminodiphenylether[J]. New Chemical Materials, 2016, 44(8): 69-71, 77. | |
65 | Ding M X. Isomeric polyimides[J]. Progress in Polymer Science, 2007, 32(6): 623-668. |
66 | 巴玉霞, 焦阳, 王炳洋, 等. 硫醚型聚酰亚胺薄膜的制备与性能研究[J]. 绝缘材料, 2020, 53(5): 8-12. |
Ba Y X, Jiao Y, Wang B Y, et al. Preparation and properties of thioether type polyimide films[J]. Insulating Materials, 2020, 53(5): 8-12. | |
67 | 张鸿飞, 岑建军, 陈国飞, 等. 基于异构硫醚二酐与三苯双醚二酐的热塑性共聚聚酰亚胺合成与性能研究[J]. 绝缘材料, 2014, 47(5): 36-40, 44. |
Zhang H F, Cen J J, Chen G F, et al. Synthesis and characterization of thermoplastic copolyimides based on isomeric diphenylthioether dianhydrides and hydroquinone diphthalic dianhydride[J]. Insulating Materials, 2014, 47(5): 36-40, 44. | |
68 | Han Y, Fang X Z, Zuo X X. Synthesis and properties of novel melt processable isomeric polythioetherimides[J]. High Performance Polymers, 2010, 22(8): 989-1003. |
69 | Li Q X, Fang X Z, Wang Z, et al. Polyimides from isomeric oxydiphthalic anhydrides[J]. Journal of Polymer Science Part A: Polymer Chemistry, 2003, 41(21): 3249-3260. |
70 | 刘勇军, 周丽云, 洪慧铭, 等. ODA二胺单体双酮酐型聚酰亚胺的合成与性能[J]. 高分子材料科学与工程, 2018, 34(11): 27-31, 36. |
Liu Y J, Zhou L Y, Hong H M, et al. Synthesis and properties of oxydianiline diketone anhydride polyimides[J]. Polymer Materials Science & Engineering, 2018, 34(11): 27-31, 36. | |
71 | 郭安祥. PAPP/ODA共聚聚酰亚胺的制备与性能[J]. 工程塑料应用, 2016, 44(9): 96-99. |
Guo A X. Preparation and performance of copolyimide of PAPP/ODA[J]. Engineering Plastics Application, 2016, 44(9): 96-99. | |
72 | 马馨雨, 刘立柱, 张笑瑞, 等. 热塑性共聚聚酰亚胺薄膜的合成及性能研究[J]. 材料科学与工艺, 2019, 27(3): 47-52. |
Ma X Y, Liu L Z, Zhang X R, et al. Synthesis and performance of thermoplastic copolyimide film materials[J]. Materials Science and Technology, 2019, 27(3): 47-52. | |
73 | 许晓洲, 刘仪, 何民辉, 等. 共聚结构和分子量对热塑性聚酰亚胺树脂熔融与耐热性能的影响[J]. 高等学校化学学报, 2021, 42(3): 919-928. |
Xu X Z, Liu Y, He M H, et al. Effect of copolymerization structure and molecular weight on melt fluidity and thermal properties of thermoplastic polyimide resins[J]. Chemical Journal of Chinese Universities, 2021, 42(3): 919-928. | |
74 | 高鑫, 宋艳江, 王晓东, 等. 复合处理碳纤维增强聚酰亚胺复合材料力学性能[J]. 复合材料学报, 2009, 26(3): 50-54. |
Gao X, Song Y J, Wang X D, et al. Mechanical properties of compound modification carbon fiber reinforced thermoplastic polyimide[J]. Acta Materiae Compositae Sinica, 2009, 26(3): 50-54. | |
75 | 宋艳江, 高鑫, 朱鹏, 等. 表面处理碳纤维增强聚酰亚胺复合材料力学性能[J]. 复合材料学报, 2008, 25(5): 64-68. |
Song Y J, Gao X, Zhu P, et al. Mechanical properties of carbon fiber modified thermoplastic polyimide with surface treatment[J]. Acta Materiae Compositae Sinica, 2008, 25(5): 64-68. | |
76 | Su C, Xue F, Li T S, et al. Fabrication and multifunctional properties of polyimide based hierarchical composites with in situ grown carbon nanotubes[J]. RSC Advances, 2017, 7(47): 29686-29696. |
77 | Yang J, Xiao Q F, Lin Z, et al. Growth of ultra-dense MoS2 nanosheets on carbon fibers to improve the mechanical and tribological properties of polyimide composites[J]. Friction, 2021, 9(5): 1150-1162. |
78 | 靖长亮, 何春霞. 表面处理碳纤维改性聚酰亚胺复合材料的力学性能[J]. 塑料, 2012, 41(3): 4-6. |
Jing C L, He C X. Mechanical properties of the thermoplastic polyimide composite filled with different surface treatments carbon fibers[J]. Plastics, 2012, 41(3): 4-6. | |
79 | 李健. 稀土溶液处理碳纤维填充热塑性聚酰亚胺复合材料摩擦学性能研究[D]. 上海: 上海交通大学, 2008. |
Li J. The research on the tribological properties of rare earth solution treated carbon fiber reinforced thermoplastic polyimide composites[D]. Shanghai: Shanghai Jiao Tong University, 2008. | |
80 | 罗咏梅, 李杨, 周琴, 等. 环氧基POSS处理碳纤维对聚酰亚胺复合材料性能的影响[J]. 塑料科技, 2018, 46(9): 67-72. |
Luo Y M, Li Y, Zhou Q, et al. Effect of carbon fiber treated with POSS on properties of polyimide composites[J]. Plastics Science and Technology, 2018, 46(9): 67-72. | |
81 | Yan Y S, Xu J B, Zhu H J, et al. Molecular dynamics simulation of the interface properties of continuous carbon fiber/polyimide composites[J]. Applied Surface Science, 2021, 563: 150370. |
82 | 沈功田, 秦平彦, 张敏, 等. 碳纤维增强聚酰亚胺复合材料加热固化过程的声发射监测[J]. 无损检测, 1998, 20(5): 126-128. |
Shen G T, Qin P Y, Zhang M, et al. Acoustic emission monitoring of carbon fibre reinforced polyimide composite during heating and solidifying[J]. Nonde Structive Testing, 1998, 20(5): 126-128. | |
83 | 潘玲英, 赵伟栋, 刘含洋, 等. 耐420℃聚酰亚胺复合材料成型工艺[J]. 宇航材料工艺, 2016, 46(4): 52-55. |
Pan L Y, Zhao W D, Liu H Y, et al. Processing method of polyimide matrix composites for 420℃ application[J]. Aerospace Materials and Technology, 2016, 46(4): 52-55. | |
84 | Yang Y, Chiesura G, Luyckx G, et al. Development of a dielectric sensor system for the on-line cure monitoring of composites[J]. Procedia Technology, 2014, 15: 631-637. |
85 | 罗维, 宋志梅, 程勇, 等. 介电分析在碳纤维增强双马来酰亚胺复合材料固化工艺中的应用研究[J]. 航空制造技术, 2020, 63(15): 48-52. |
Luo W, Song Z M, Cheng Y, et al. Application of dielectric analysis in curing process of carbon fiber reinforced bismaleimide composites[J]. Aeronautical Manufacturing Technology, 2020, 63(15): 48-52. | |
86 | Montesano J, Selezneva M, Poon C, et al. Application of fiber optic sensors for elevated temperature testing of polymer matrix composite materials[J]. Science and Engineering of Composite Materials, 2011, 18(1/2): 109-116. |
[1] | 胡兴枝, 张皓焱, 庄境坤, 范雨晴, 张开银, 向军. 嵌有超小CeO2纳米粒子的碳纳米纤维的制备及其吸波性能[J]. 化工学报, 2023, 74(8): 3584-3596. |
[2] | 张澳, 罗英武. 低模量、高弹性、高剥离强度丙烯酸酯压敏胶[J]. 化工学报, 2023, 74(7): 3079-3092. |
[3] | 王杰, 丘晓琳, 赵烨, 刘鑫洋, 韩忠强, 许雍, 蒋文瀚. 聚电解质静电沉积改性PHBV抗氧化膜的制备与性能研究[J]. 化工学报, 2023, 74(7): 3068-3078. |
[4] | 蔡斌, 张效林, 罗倩, 党江涛, 左栗源, 刘欣梅. 导电薄膜材料的研究进展[J]. 化工学报, 2023, 74(6): 2308-2321. |
[5] | 崔张宁, 胡紫璇, 吴雷, 周军, 叶干, 刘田田, 张秋利, 宋永辉. 可降解纤维素基材料的耐水性能研究进展[J]. 化工学报, 2023, 74(6): 2296-2307. |
[6] | 李振, 张博, 王丽伟. PEG-EG固-固相变材料的制备和性能研究[J]. 化工学报, 2023, 74(6): 2680-2688. |
[7] | 陈韶云, 徐东, 陈龙, 张禹, 张远方, 尤庆亮, 胡成龙, 陈建. 单层聚苯胺微球阵列结构的制备及其吸附性能[J]. 化工学报, 2023, 74(5): 2228-2238. |
[8] | 代佳琳, 毕唯东, 雍玉梅, 陈文强, 莫晗旸, 孙兵, 杨超. 热物性对混合型CPCMs固液相变特性影响模拟研究[J]. 化工学报, 2023, 74(5): 1914-1927. |
[9] | 刘瑞琪, 周栖桐, 张悦, 贺莹, 高静, 马丽. 基于金纳米颗粒修饰二氧化硅纳米花的生物传感器构建及应用[J]. 化工学报, 2023, 74(3): 1247-1259. |
[10] | 徐东, 田杜, 陈龙, 张禹, 尤庆亮, 胡成龙, 陈韶云, 陈建. 聚苯胺/二氧化锰/聚吡咯复合纳米球的制备及其电化学储能性[J]. 化工学报, 2023, 74(3): 1379-1389. |
[11] | 陈瑞哲, 程磊磊, 顾菁, 袁浩然, 陈勇. 纤维增强树脂复合材料化学回收技术研究进展[J]. 化工学报, 2023, 74(3): 981-994. |
[12] | 徐振和, 李泓江, 高雨, 礼峥, 张含烟, 徐宝彤, 丁茯, 孙亚光. In2O3/Ag:ZnIn2S4“Type Ⅱ”型异质结构材料的制备及可见光催化性能[J]. 化工学报, 2022, 73(8): 3625-3635. |
[13] | 杨双桥, 韦宝杰, 徐大伟, 李莉, 王琪. 铝塑复合包装的应用及废弃物回收利用新技术[J]. 化工学报, 2022, 73(8): 3326-3337. |
[14] | 钟磊, 邱学青, 张文礼. 木质素衍生炭在碱金属离子电池负极中的研究进展[J]. 化工学报, 2022, 73(8): 3369-3380. |
[15] | 张鑫, 许蕊, 路馨语, 牛永安. SiO2@BiOCl-Bi24O31Cl10核壳微球的合成及光催化[J]. 化工学报, 2022, 73(8): 3636-3646. |
阅读次数 | ||||||
全文 |
|
|||||
摘要 |
|
|||||