Page 29 - 《精细化工》2023年第8期
P. 29

第 8 期                       鲍   艳,等:  聚硅氧烷在金属防腐蚀领域的研究进展                                 ·1643·


            段或乳胶粒结构,也将成为提升聚硅氧烷类涂层防                                 化与应用), 2021, 50(2): 5-8, 52.
            腐蚀性能的重要手段。                                         [17]  BAO Y (鲍艳),  WEI Y M (魏艳敏). Research progress on two-
                                                                   dimensional layered materials in coating anticorrosion[J]. Fine
                                                                   Chemicals (精细化工), 2020, 37(12): 2406-2414.
            参考文献:
                                                               [18]  ZHANG Y L, LI Z X, YE Q L, et al. Novel anticorrosion property of
            [1]   KONG F H (孔凡厚), ZHANG L (张雷), LUO Z M (罗智明), et al.   organic coating based on liquid metal[J]. Advanced Materials Interfaces,
                 The development of anticorrosive coatings industry[J]. Coating and   2019, 6(21): 1900942.
                 Protection (涂料技术与文摘), 2017, 38(6): 54-58.     [19]  DAVID J K, RICHARD M  L. Durable and hydrophobic organic-
            [2]   GONG J  L (龚娇龙), YANG S  Y (杨绍云), YUAN J  J (袁佳佳).   inorganic hybrid coatings via fluoride rearrangement of phenyl T12
                 Development of high weather-resistant epoxy-modified polysiloxane   silsesquioxane and siloxanes[J]. ACS Applied Materials & Interfaces,
                 coatings[J]. China Coatings (中国涂料), 2017, 32(11): 61-63, 70.   2017, 9: 8378-8383.
            [3]   MARTINA S D L. Recent trends in waterborne and bio-based   [20]  SUN Z G, LIU B, HUANG S Q,  et al. Facile fabrication  of
                 polyurethane coatings for corrosion protection[J]. Advanced Materials   superhydrophobic coating based on polysiloxane emulsion[J]. Progress
                 Interfaces, 2022, 9(11): 2101775.                 in Organic Coatings, 2017, 102: 131-137.
            [4]   EDWIN A M, BETTY  L L, WITOLD B. Thermal, hydrolytic,   [21]  YANG H (杨宏), BAO Y (鲍艳). Research progress in self-healing
                 anticorrosive, and tribological properties  of alkyd-silicone   superhydrophobic surfaces[J]. Journal of Functional Materials (功能
                 hyperbranched resins with high solid content[J]. Journal of Applied   材料), 2021, 52(8): 8031-8041.
                 Polymer Science, 2011, 124(5): 3591-3599.     [22] BAO Y (鲍艳), CHANG J X (畅菁香). Research progress of durable
            [5]   BAO Y (鲍艳), DING Y (丁颖), TANG P (唐培), et al. Properties of   superhydrophobic surface[J]. Chemical Industry and Engineering
                 water-bone alkyd resin/hollow TiO 2 microsphere composite coating[J].   Progress (化工进展), 2020, 39(12): 5148-5160.
                 Materials Reports (材料导报), 2021, 35(18): 18200-18204, 18221.   [23]  BAO Y, YAN Y, ZHANG J, et al. Effect of the feeding mode of cross-
            [6]   OU B L (欧宝立), WANG Y W (汪雨微), DUAN J (段俊),  et al.   linker and microcapsule on the corrosion resistance and hydrophobicity of
                 Preparation and anticorrosive performance of BTA@SPANI-POSS   composite coatings[J]. Arabian Journal of Chemistry, 2020, 13: 9068-
                 epoxy coating[J]. China Surface Engineering (中国表面工程), 2022,   9080.
                 35(4): 161-171.                               [24]  SU X F, YU  Y T, LI B,  et al. Synthesis and characterization of
            [7]   WANG L (王磊),  SHI J F (石家烽), DUAN S M (段绍明),  et al.   polyurethane-polysiloxane block copolymers  modified by  α,ω-
                 Research and application of heat conducting coating for temerature   hydroxyalkyl polysiloxanes with methacrylate side chain[J]. Science
                 and H 2S corrosion resistance[J]. Petroleum Engineering (石油工程建  and Engineering of Composite Materials, 2021, 28(1): 528-539.
                 设), 2021, 47(5): 40-44.                       [25]  ZHENG G K, LU  M, RUI  X P.  The  effect of polyether functional
            [8]   CHEN S F, LI A  H, SUN M,  et al. Polyvinyl butyral/3-hydroxy-   polydimethylsiloxane on surface and thermal properties of waterborne
                 2-naphthoic  hydrazide/poly(methylhydrosiloxane) composite coatings   polyurethane[J]. Applied Surface Science, 2017, 399: 272-281.
                 for improved stainless steel anticorrosion in salt, acid, and alkali   [26]  CHEN G, FENG J H, QIU W, et al. Eugenol-modified polysiloxanes
                 solution[J]. ChemistrySelect, 2022, 7(3): e202103453.   as effective anticorrosion additives for epoxy resin coatings[J]. RSC
            [9]   BARLETTA M, PIZZI E, MORETTI P, et al. Siloxane coating with   Advances, 2017, 7: 55967-55976.
                 epoxy  modification: Optimization of adhesion to improve steel   [27]  ZHU H Y (朱化雨), ZHAO H Y  (赵洪义). Polyphenylmethyl
                 corrosion protection[J]. Journal of Coatings Technology and   silicone modified  epoxy resins and  a new type of heat-resistant
                 Research, 2022, 19: 839-849.                      anti-corrosive coating[J]. New Chemical Materials (化工新型材料),
            [10]  ALI H, MAJID R A, MAJID M, et al. Recent advances and future   2010, 38(8): 103-106.
                 perspectives for carbon nanostructures reinforced organic coating for   [28]  YE J Y (叶建宇), ZHENG X H (郑祥宏), ZHU A Q (祝奥奇), et al.
                 anti-corrosion application[J]. Surfaces and Interfaces, 2021, 23: 100994.   Epoxy resin anticorrosive coating modified by the co-doping  of
            [11]  GUO T, LI H, MA X H,  et al. Hyperbranched polyester modified   polyhedral silsesquioxane/hexagonal boron nitride/aniline trimer[J].
                 graphene oxide on  anti-corrosion performance of epoxy composite   Acta Materiae Compositae Sinica (复合材料学报), 2022, 39(12):
                 coatings  for electric power system[J]. Plastics Rubber and   5665-5677.
                 Composites, 2020, 49: 245-253.                [29]  WEI J F, LI B C, JING L Y, et al. Efficient protection of Mg alloy
            [12]  SONG Z Q (宋志强), ZHANG Y R (张依然), SONG F R (宋福如),   enabled by combination of a conventional anti-corrosion coating and
                 et al. Research progress of grapgene modified anticorrosive coatings[J].   a superamphiphobic coating[J]. Chemical Engineering Journal, 2020,
                 Guangdong Chemical Industry (广东化工), 2021, 48(19): 88-91.   390: 124562.
            [13]  XIE Y K, LIU C H, LIU W Q, et al. A novel approach to fabricate   [30]  MO C Y (莫春燕), ZHENG Y S (郑燕升), WANG F L (王发龙), et
                 polyacrylate  modified graphene oxide  for improving the corrosion   al. Preparation and TiO 2/polydimethylsiloxane superhydrophobic
                 resistance of epoxy coatings[J]. Colloids and Surfaces A: Physicochemical   coating and its anticorrosive property[J]. China Plastics Industry (塑
                 and Engineering Aspects, 2020, 593: 124627.       料工业), 2015, 43(2): 125-129, 135.
            [14]  GE T H (葛天昊), ZHAO W J (赵文杰), WU X D  (乌学东).   [31] CHEN W (陈伟), HANG J Z (杭建忠), SUN X Y (孙小英), et al.
                 Electrochemical performance of graphene and hexagonal boron   Preparation and properties  of waterborne nano-Al 2O 3/polysiloxane
                 nitride thin layer and its anticorrosion mechanism[C]//Summary   hybrid coatings on  magnesium  alloy for corrosion protection[J].
                 Collection of the 10th National Corrosion Conference (第十届全国  Polymer Materials Science & Engineering (高分子材料科学与工
                 腐蚀大会摘要集), 2019: 52.                               程), 2018, 34(1): 112-118.
            [15]  LIN J M (林家明), LIU W Q (刘伟区), LIANG L Y (梁利岩), et al.   [32]  SUN D B (孙东博), HANG J Z (杭建忠), SUN X Y (孙小英), et al.
                 Preparation and  properties  of modified hexagonal boron nitride/   Preparation and properties of water-borne nano-ZrO 2/epoxy polysiloxane
                 waterborne polyurethane coatings[J]. Fine Chemicals (精细化工),   anti-corrosion hybrid coating[J]. Journal of Functional Materials (功
                 2021, 38(10): 2132-2140.                          能材料), 2017, 48(3): 3202-3207.
            [16]  ZHOU S F (周少锋), YAN  H M (闫慧敏),  LIU Y Q  (刘亚青).   [33]  ZHANG T, JIANG B, HUANG Y D. Combined use of methacrylate/
                 Anti-corrosion  properties and preparation of  polydopamine/   epoxy functionalized silanes for tuning of hyperbranched polysiloxane
                 polyethylenimine crosslinking modified GO filled epoxy resin   structure[J]. Materials Chemistry and Physics, 2020, 254: 123525.
                 coatings[J]. Synthetic Materials Aging and Application (合成材料老  [34]  JIANG G  Q (姜贵全),  CHENG Z Q (程泽琦), GE Z R  (葛泽儒),
   24   25   26   27   28   29   30   31   32   33   34