JIANG Yu, LI Jiang, LI Dan, et al. Bio-based hyperbranched epoxy resins: synthesis and recycling[J]. Chemical society reviews, 2024.

MI Xiaoqian, LIANG Nuo, XU Haifeng, et al. Toughness and its mechanisms in epoxy resins[J]. Progress in materials science, 2022, 130: 100977.

MOUSTAFA M Y Z, MAI M Y Z, MOHAMMED F. Recent progress in epoxy nanocomposites: corrosion, structural, flame retardancy and applications-A comprehensive review. polymers for advanced technologies[J]. Polymers advanced technologies, 2023, 34(11): 343-872.

CRISTION B C, VINCENT G, MARIA E R, et al. Study into the mechanical properties of a new aeronautic-grade epoxy-based carbon-fiber-reinforced vitrimer[J]. Polymers, 2022, 14(6): 1223.

CAPRICHO J C, FOX B, HAMEED N. Multifunctionality in epoxy resins[J]. Polymer reviews, 2020, 60(1): 1-41.

周茂强, 周晓天, 赵文辉. 海洋环境下石墨烯改性纤维增强高性能树脂复合涂层的防腐性能[J]. 新型建筑材料, 2022, 49(10): 37-39.

ZHOU Maogiang ZHOU Xiaotian ZHAO Wenhui. Corrosion resistance of graphene modified fiber reinforced high-performanceresin composite coating in marine environment[J]. New building materials, 2022, 49(10): 37-39.

史雅娜, 郑朝晖, 潘毅等. 具有自分层效应的环保型含氟环氧自分层涂层的制备与性能[J]. 高分子材料科学与工程, 2020, 36(3): 126-132.

SHI Yana, ZHENG Zhaohui, PAN Yi, et al. Preparation and properties of environmentally friendly fluorinated epoxyself-stratification coatings[J]. Polymer materials science and engineering, 2020, 36(3): 126-132.

DENG Zongcai, SUN Tong, ZHANG Yaning. Experimental study of the axial behavior of carbon fiber-reinforced polymer-steel composite tubes-confined UHPC stub columns[J]. Journal of Harbin Engineering University, 2020, 41(11): 1695-1702.

薛文远, 胡翔, 薛伟辰. 玻璃纤维增强复合材料筋与超高性能混凝土之间粘结-滑移本构模型[J]. 哈尔滨工程大学学报, 2023, 44(5): 698-707.

XUE Wenyuan, HU Xiang, XUE Weichen. Bond-slip constitutive model for glass fiber-reinforcedpolymer rebars in ultrahigh-performance concrete[J]. Journal of Harbin Engineering University, 2023, 44(5): 698-707.

DONG Ming, ZHANG Han, TZOUNIS Lazaros. Multifunctional epoxy nanocomposites reinforced by two-dimensional materials: A review[J]. Carbon, 2021, 185: 57-81.

MI Xiaoqian, LIANG Nuo, XU Haifeng, et al. Toughness and its mechanisms in epoxy resins[J]. Progress in materials science, 2022, 130: 100977.

LIU Xiaofeng, LUO Xi, LIU Bowen, et al. Toughening epoxy resin using a liquid crystalline elastomer for versatile application[J]. ACS applied polymer materials, 2019, 1(9): 2291-2301.

FENG Libang, HE Xia, ZHANG Yunpeng, et al. Triple roles of thermoplastic polyurethane in toughening, accelerating and enhancing self-healing performance of thermo-reversible epoxy resins[J]. Journal of polymers and the environment, 2021, 29: 829-836.

NING Na, LIU Wanshuang, HU Qiaole, et al. Impressive epoxy toughening by a structure-engineered core/shell polymer nanoparticle[J]. Composites science and technology, 2020, 199: 108364.

JANG B Z, LIAU J Y, HWANG L R, et al. Structure-property relationships in thermoplastic particulate-and ceramic whisker-modified epoxy resins[J]. Journal of reinforced plastics and composites, 1989, 8(4): 312-333.

JAYAN J S, SARITHA A, JOSEPH K, et al. Innovative materials of this era for toughening the epoxy matrix: a review[J]. Polymer composites, 2018, 39(S4): 1959-1986.

龚云表, 石安富. 聚醚醚酮的性能、成型加工及其应用[J]. 塑料科技, 1985, 13(4): 1-6.

GONG Yunbiao, SHI Anfu. Performance, molding and application of polyether ether ketone[J]. Plastics science and technology, 1985, 13(4): 1-6.

胡兵. 改性聚醚醚酮增韧环氧树脂的研究[D]. 武汉: 武汉理工大学, 2007.

HU Bing. Study on modified-poly(ether ether ketone) toughening epoxy resins[D]. Wuhan: Wuhan University of Technology, 2007.

SHI Huajie, SINKE J, BENEDICTUS R. Surface modification of PEEK by UV irradiation for direct co-curing with carbon fibre reinforced epoxy prepregs[J]. International journal of adhesion and adhesives, 2017, 73: 51-57.

QUAN Dong, DEEGAN B, BINSFELD L, et al. Effect of interlaying UV-irradiated PEEK fibres on the mechanical, impact and fracture response of aerospace-grade carbon fibre/epoxy composites[J]. Composites part B: engineering, 2020, 191: 107923.

KARTHIKEYAN L, MATHEW D, ROBERT T M. Poly(ether ether ketone)-bischromenes: synthesis, characterization, and influence on thermal, mechanical, and thermo mechanical properties of epoxy resin[J]. Polymers for advanced technologies, 2019, 30(4): 1061-1071.

TSIANGOU E, TEIXEIRA DE FREITAS S, VILLEGAS I F, et al. Ultrasonic welding of epoxy-to polyetheretherketone-based composites: investigation on the material of the energy director and the thickness of the coupling layer[J]. Journal of composite materials, 2020, 54(22): 3081-3098.

张明, 罗业, 党国栋, 等. 含氟聚醚醚酮增韧环氧树脂相形貌与性能研究[J]. 热固性树脂, 2008, 23(6): 1-4.

ZHANG Ming, LUO Ye, DANG Guodong, et al. Study on phase morphology and mechanical properties of epoxy system toughened by fluorinated poly(ether ether ketone)[J]. Thermosetting resin, 2008, 23(6):1-4.

GAO Junpeng, ZHANG Chenqian, HE Xiancheng, et al. Smart materials of cured epoxy polymer modified by 6F-PEEK with shape memory effect[J]. Advanced materials research, 2010, 152/153: 530-535.

LUO Ye, ZHANG Ming, DANG Guodong, et al. Toughening of epoxy resin by poly(ether ether ketone) with pendant fluorocarbon groups[J]. Journal of applied polymer science, 2011, 122(3): 1758-1765.

孙攀, 张孝阿, 张军营. "聚醚醚酮改性E51/DDM胶粘剂"[C]//北京粘接学会第十八届年会暨胶粘剂、密封剂技术发展论坛论文集. 北京, 2009: 173-181.

KATTI P, BOSE S, KUMAR S. Tailored interface resulting in improvement in mechanical properties of epoxy composites containing poly (ether ether ketone) grafted multiwall carbon nanotubes[J]. Polymer, 2016, 102: 43-53.

KATTI P, KUNDAN K V, KUMAR S, et al. Poly(ether ether ketone)-grafted graphene oxide "interconnects" enhance mechanical, dynamic mechanical, and flame-retardant properties in epoxy laminates[J]. ACS omega, 2018, 3(12): 17487-17495.

IIJIMA T, TOCHIMOTO T, TOMOI M. Modification of epoxy resins with poly(aryl ether ketone)S[J]. Journal of applied polymer science, 1991, 43(9): 1685-1692.

BENNETT G S, FARRIS R J, THOMPSON S A. Amine-terminated poly(aryl ether ketone)-epoxy/amine resin systems as tough high performance materials[J]. Polymer, 1991, 32(9): 1633-1641.

FRANCIS B, THOMAS S, SADHANA R, et al. Diglycidyl ether of bisphenol-a epoxy resin modified using poly(ether ether ketone) with pendenttert-butyl groups[J]. Journal of polymer science B polymer physics, 2007, 45(17): 2481-2496.

DAVIM J P, CARDOSO R. Effect of the reinforcement (carbon or glass fibres) on friction and wear behaviour of the PEEK against steel surface at long dry sliding[J]. Wear, 2009, 266(7/8): 795-799.

LI Fei, HUA Yang, QU Chengbing, et al. Greatly enhanced cryogenic mechanical properties of short carbon fiber/polyethersulfone composites by graphene oxide coating[J]. Composites part A: applied science and manufacturing, 2016, 89: 47-55.

JIANG Minqiang, LIU Yong, CHENG Chao, et al. Enhanced mechanical and thermal properties of monocomponent high performance epoxy resin by blending with hydroxyl terminated polyethersulfone[J]. Polymer testing, 2018, 69: 302-309.

华幼卿, 王惠琼, 张西萍. 聚醚砜改性环氧树脂的研究(Ⅲ)力学性能和热性能[J]. 北京化工学院学报(自然科学版), 1992, 19(1): 23-29.

HUA Youqing, WANG Huiqiong, ZHANG Xiping. Study on the epoxy resins system modified with polyethersulphone (Ⅲ) the mechanical and thermal properties[J]. Journal of Beijing University of Chemical Technology (natural science edition), 1992, 19(1): 23-29.

徐修成, 殷立新, 宋文辉. 环氧—聚醚砜体系及其增韧机理的研究[J]. 宇航材料工艺, 1996(1): 32-36.

XU Xiucheng, YIN Lixin, SONG Wenhui. Research on epoxy-polyether sulfone system and its toughening principle[J]. Aerospace material technology, 1996(1): 32-36.

梁伟荣, 王惠民, 郑志才. 聚醚砜增韧环氧树脂的结构与性能[J]. 热固性树脂, 1997, 12(4): 12-15.

LIANG Weirong, WANG Huimin, ZHENG Zhicai. Structure and properties of epoxy resin toughened by polyether sulfone[J]. Thermoseting resin, 1997, 12(4): 12-15.

MATHIS E, MICHON M L, BILLAUD C, et al. Thermoset modified with polyethersulfone: characterization and control of the morphology[J]. Journal of polymer science, 2020, 58(8): 1177-1188.

KAUSAR A, IQBAL A, HUSSAIN S T. Preparation and properties of polyamide/epoxy/multi-walled carbon nanotube nanocomposite[J]. Journal of plastic film&sheeting, 2014, 30(2): 205-224.

秦浩, 王洋, 孟姗姗, 等. 多壁碳纳米管/聚醚砜-环氧树脂复合材料的制备及力学性能[J]. 复合材料学报, 2014, 31(4): 931-936.

QIN Hao, WANG Yang, MENG Shanshan, et al. Preparation and mechanical properties of multi-walled carbon nanotubes/polyethersulphone-epoxy composites[J]. Acta materiae compositae sinica, 2014, 31(4): 931-936.

CHEN Yufei, GUO Hongyuan, CAI Mingzhuo, et al. Effect of polyether sulfone resin on micromorphology, thermal, mechanical, and dielectric properties of epoxy-bismaleimide composite material[J]. Journal of electronic materials, 2018, 47(10): 6021-6027.

WANG Fuzhong, DRZAL L T. Development of stiff, tough and conductive composites by the addition of graphene nanoplatelets to polyethersulfone/epoxy composites[J]. Materials, 2018, 11(11): 2137.

CHENG Chao, CHEN Zhengguo, HUANG Zhuang, et al. Simultaneously improving mode I and mode II fracture toughness of the carbon fiber/epoxy composite laminates via interleaved with uniformly aligned PES fiber webs[J]. Composites part A: applied science and manufacturing, 2020, 129: 105696.

ZHENG Wenjian, YAO Zhengjun, LIN Haiyan, et al. Improved fracture toughness of carbon fiber fabric/epoxy composite laminates using polyether sulfone fibers[J]. High performance polymers, 2019, 31(8): 996-1005.

甘肃油漆厂. 环氧改性聚氨酯标誌漆[J]. 涂料工业, 1975, 5(3): 14-15.

Gansu paint factory. Epoxy modified polyurethane marking paint[J]. Paint&coatings industry, 1975, 5(3): 14-15.

李玉玮, 赵东辉, 张丽梅, 等. 聚氨酯/环氧树脂互穿网络聚合物阻尼涂料[J]. 涂料工业, 1990, 20(3): 6-9.

LI Yuwei, ZHAO Donghui, ZHANG Limei, et al. Damping coatings based on polyurethane/epoxy resin ipn polymer[J]. Paint&coatings industry, 1990, 20(3): 6-9.

韩孝族, 王莲芝, 曾林, 等. 丁腈羟聚氨酯增韧环氧树脂研究[J]. 聚氨酯工业, 1987, 2(1): 1-5.

HAN Xiaozu, WANG Lianzhi, ZENG Lin, et al. Study on toughening epoxy resin with NBR-HPU[J]. Polyurethane industry, 1987, 2(1): 1-5.

程卫军, 李凤英, 姚康德. 聚酯/环氧/聚氨酯复合粉末涂料的研究[J]. 热固性树脂, 1992, 7(2): 31-33.

CHENG Weijun, LI Fengying, YAO Kangde. Studies on composite powder paint of polyester/epoxy resin/pol yurethane[J]. Thermosetting resin, 1992, 7(2): 31-33.

YU Ping, LI Guitao, ZHANG Ligang, et al. Regulating microstructures of interpenetrating polyurethane-epoxy networks towards high-performance water-lubricated bearing materials[J]. Tribology international, 2019, 131: 454-464.

BANGASH M K, RUIZ D L A, AURREKOETXEA J, et al. Development and characterisation of dynamic bi-phase (epoxy/PU) composites for enhanced impact resistance[J]. Composites part B: engineering, 2018, 155: 122-131.

JIA Liying, QI Pengfei, SHI Ke, et al. High performance epoxy-based composites for cryogenic use: a approach based on synergetic strengthening effects of epoxy grafted polyurethane and MWCNTs -NH 2 [J ] . Composites science and technology, 2019, 184: 107865.

SARAFRAZI M, HAMADANIAN M, GHASEMI A R. Optimize epoxy matrix with RSM/CCD method and influence of multi-wall carbon nanotube on mechanical properties of epoxy/polyurethane[J]. Mechanics of materials, 2019, 138: 103154.

LIU Kuanliang, LAI Sunmou, HAN Jinlin, et al. Properties of sugarcane fiber/polyurethane-crosslinked epoxy composites under different interfacial treatments[J]. Polymer composites, 2020, 41(10): 4277-4287.

ZHENG Nan, SUN Weifu, LIU Hongyuan, et al. Effects of carboxylated carbon nanotubes on the phase separation behaviour and fracture-mechanical properties of an epoxy/polysulfone blend[J]. Composites science and technology, 2018, 159: 180-188.

CHEN Yu, SUI Ling, FANG Hong, et al. Superior mechanical enhancement of epoxy composites reinforced by polyimide nanofibers via a vacuum-assisted hot-pressing[J]. Composites science and technology, 2019, 174: 20-26.

YANG An, XU Chun. Synthesis and characterization of a polyimide-epoxy composite for dental applications[J]. Mechanics of composite materials, 2018, 54(1): 71-78.

WANG Tongtong, HUANG Pei, LI Yuanqing, et al. Epoxy nanocomposites significantly toughened by both poly(sulfone) and graphene oxide[J]. Composites communications, 2019, 14: 55-60.

LYU Peng, FENG Yiyu, ZHANG Peng, et al. Increasing the interfacial strength in carbon fiber/epoxy composites by controlling the orientation and length of carbon nanotubes grown on the fibers[J]. Carbon, 2011, 49(14): 4665-4673.