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·904· 精细化工 FINE CHEMICALS 第 39 卷
车轻量化、风电设备、航空航天等领域获得良好应用。 A: Polymer Chemistry, 2018, 56(4): 359-364.
[18] CUTHBERT T J, LI T, WULFF J E. Production and dynamic
参考文献: mechanical analysis of macro-scale functionalized polydicyclopentadiene
objects facilitated by rational synthesis and reaction injection molding[J].
[1] WALTHER A, BJURHAGER I, MALHO J M, et al. Large-area, ACS Applied Polymer Materials, 2019, 1(9): 2460-2471.
lightweight and thick biomimetic composites with superior material [19] CHRITI D, RAPTOPOULOS G, BRANDENBURG B, et al. Large,
properties via fast, economic, and green pathways[J]. Nano Letters, rapid swelling of high-cis polydicyclopentadiene aerogels suitable for
2010, 10(8): 2742-2748. solvent-responsive actuators[J]. Polymers, 2020, 12(5): 1033.
[2] LYU M Y, CHOI T G. Research trends in polymer materials for use [20] KATSOULIDIS A P, HE J, KANATZIDIS M G. Functional
in lightweight vehicles[J]. International Journal of Precision Engineering monolithic polymeric organic framework aerogel as reducing and
& Manufacturing, 2015, 16(1): 213-220. hosting media for Ag nanoparticles and application in capturing of
[3] ZHANG J, CHAISOMBAT K, HE S, et al. Hybrid composite laminates iodine vapors[J]. Chemistry of Materials, 2012, 24(10): 1937-1943.
reinforced with glass/carbon woven fabrics for lightweight load [21] JEONG W, KESSLER M R. Toughness enhancement in ROMP
bearing structures[J]. Materials & Design, 2012, 36(36): 75-80. functionalized carbon nanotube/polydicyclopentadiene composites[J].
[4] MIN Z Y, YANG H, CHEN F, et al. Scale-up production of Chemistry of Materials, 2008, 20(22): 7060-7068.
lightweight high-strength polystyrene/carbonaceous filler composite [22] LIU M, ROHDE B J, KRISHNAMOORTI R, et al. Bond behavior of
foams with high-performance electromagnetic interference epoxy resin-polydicyclopentadiene phase separated interpenetrating
shielding[J]. Materials Letters, 2018, 230(230): 157-160. networks for adhering carbon fiber reinforced polymer to steel[J].
[5] LU C (陆昶), LIU X J (刘宪俊), CHEN Q (陈权), et al. Reinforcing Polymer Engineering & Science, 2020, 60(1): 104-112.
effect of mesoporous molecular sieve on polydicyclopentadiene[J]. [23] QIAO X F (乔新峰), LIU J (刘建), LI X J (李秀君), et al.
Journal of Macromolecules (高分子学报), 2011, 55(1): 63-69. Preparation and study of polydicyclopentadiene-based carbon fiber
[6] BELOV D S, MATHIVATHANAN L, BEAZLEY M J, et al. reinforced composites[J]. Shanghai Plastics (上海塑料), 2020, 48(4):
Stereospecific ring-opening metathesis polymerization of norbornene 19-23.
catalyzed by iron complexes[J]. Angewandte Chemie International [24] JEON J H, YOON C K, PARK S H, et al. Assessment of long fiber spray-
Edition, 2021, 60(6): 2934-2938. up molding of chopped glass fiber reinforced polydicyclopentadiene
[7] WANG Y Q, ZHANG L, SUN J C, et al. Dramatic toughness composites[J]. Fibers and Polymers, 2020, 21(5): 1134-1141.
enhancement of polydicyclopentadiene composites by incorporating [25] KWON D J, SHIN P S, KIM J H, et al. Reinforcing effects of glass
low amounts of vinyl-functionalized SiO 2[J]. Industrial & Engineering fiber/p-DCPD with fiber concentrations, types, lengths and surface
Chemistry Research, 2017, 56(16): 4750-4757. treatment[J]. Composites, Part B: Engineering, 2017, 123(123): 74-
[8] VALLONS K A M, DROZDZAK R, CHARRET M, et al. Assessment 80.
of the mechanical behaviour of glass fibre composites with a tough [26] XIA L Y (夏利英), LEI H (雷洪), HUO J C (霍冀川), et al.
polydicyclopentadiene (PDCPD) matrix[J]. Applied Science and Preparation of hydroxypropyl corn starch for glass fiber sizing
Manufacturing, 2015, 78(78): 191-200. agent[J]. Fine Chemicals (精细化工), 2012, 29(11): 1108-1111.
[9] CHO K, WANG G, RAJU R, et al. Influence of surface treatment on [27] ZHANG X (张昕). Preparation of CFF/PEEK composites and
the interfacial and mechanical properties of short s-glass fiber reinforced research on interfacial wettability[D]. Harbin: Harbin Institute of
dental composites[J]. ACS Applied Materials & Interfaces, 2019, Technology (哈尔滨工业大学), 2019.
11(35): 258-267. [28] WANG Z, ELIMELECH M, LIN S. Environmental applications of
[10] PEERZADA M, ABBASI S, LAU K T, et al. Additive manufacturing interfacial materials with special wettability[J]. Environmental
of epoxy resins: Materials, methods, and latest trends[J]. Industrial & Science & Technology, 2016, 50(5): 2132-2150.
Engineering Chemistry Research, 2020, 59(14): 6375-6390. [29] LYU P (吕品). Solid/liquid interfacial wettability regulation and the
[11] JEON J H, YOON C K, PARK S H, et al. Assessment of long fiber investigation for its application of directional liquid transport[D].
spray-up molding of chopped glass fiber reinforced polydicyclopentadiene Jilin: Jilin University (吉林大学), 2021.
composites[J]. Fibers and Polymers, 2020, 21(5): 1134-1141.
[12] SONG Y, ZHENG N, DONG X L, et al. Flexible carboxylated CNT/ [30] DAVIES P, KAUSCH H, WILLIAMS J G, et al. Round-robin
PA66 nanofibrous mat interleaved carbon fiber/epoxy laminates with interlaminar fracture testing of carbon-fibre-reinforced epoxy and
PEEK composites[J]. Composites Science and Technology, 1992,
improved interlaminar fracture toughness and flexural properties[J].
Industrial & Engineering Chemistry Research, 2020, 59(3): 1151- 43(2): 129-136.
1158. [31] SELA N, ISHAI O. Interlaminar fracture toughness and toughening
[13] LI W L (李外郎), GU T R (顾惕人). Wetting phenomenon and of laminated composite materials: A review[J]. Composites, 1989,
contact angle[J]. Fine Chemicals (精细化工), 1986, 2(2): 1-7. 20(5): 423-435.
[14] SELLITTI C, VARGUI S, MARTUSCELLI E, et al. Wettability of [32] TRNKA T, MORGAN J, SANFIRD M S, et al. Synthesis and activity
glass fibres with different sizings and their adhesion to unsaturated of ruthenium alkylidene complexes coordinated with phosphine and
polyester matrices[J]. Journal of Materials Science, 1987, 22(10): N-heterocyclic carbene ligands[J]. J Am Chem Soc, 2003, 125(9):
3477-3484. 2546-2558.
[15] LIU X L (刘晓丽), LIANG B (梁兵). Synthesis of phosphorus- [33] YOO H M, KWON D J, PARK J M, et al. Mechanical properties of
nitrogen flame retardant curing agent and its effect on performance norbornene-based silane treated glass fiber reinforced
of epoxy resin [J]. Fine Chemicals (精细化工), 2018, 35(2): 187- polydicyclopentadiene composites manufactured by the S-RIM
193. process[J]. e-Polymers, 2017, 17(2): 159-166.
[16] SHARIFULLIN I G, AKHMETOV I G, KUBANOV K M, et al. The [34] YANG X J (杨小军), LIU W F (刘文凤). Study on properties of
influence of the composition of the cocatalyst on the activity of the epoxy resin matrix for glass fiber reinforced composites[J].
catalytic system in the process of metathesis polymerisation of Thermosetting Resin (热固性树脂), 2021, 36(1): 27-30.
dicyclopentadiene[J]. International Polymer Science and Technology, [35] TANG Q Q (唐琴琼), WANG K J (王康建), LIU C R (刘才容),
2018, 45(5): 209-211. et al. Study on the testing method of fiber's resin impregnation[J]. Test
[17] STEESE N D, BARVALIVA D, POOLE X D, et al. Synthesis and and Analysis (测试分析), 2015, 37(3): 67-69.
thermal properties of linear polydicyclopentadiene via ring-opening [36] WU H L (吴海亮). Effect of resin content on mechanical properties
metathesis polymerization with a third generation grubbs-type of glass fiber reinforced epoxy resin composites[J]. Tianjin Science
ruthenium-alkylidene complex[J]. Journal of Polymer Science, Part & Technology (天津科技), 2017, 44(7): 21-26.