Page 52 - 《精细化工》2020年第12期
P. 52

·2414·                            精细化工   FINE CHEMICALS                                 第 37 卷

            [21]  WU Y Q, HE Y,  CHEN C  L,  et al. Non-covalently functionalized   2020, 234: 115891-115899.
                 boron nitride by graphene oxide for anticorrosive reinforcement of   [37]  KWON D, KANG J Y, AN S, et al. Tuning the base properties of
                 water-borne epoxy coating[J]. Colloids and Surfaces A: Physico-  Mg-Al hydrotalcite catalysts using their memory effect[J]. Journal of
                 Chemical and Engineering Aspects, 2020, 587: 124337-124346.     Energy Chemistry, 2020, 46: 229-236.
            [22]  CUI M J, REN S M, CHEN J, et al. Anticorrosive performance of   [38]  ALIBAKHSHI E, GHASEMI E, MAHDAVIAN  M,  et al.
                 waterborne epoxy coatings containing water-dispersible  hexagonal   Fabrication and characterization of layered double hydroxide/silane
                 boron nitride (h-BN) nanosheets[J]. Applied Surface Science, 2017,   nanocomposite coatings for protection of mild steel[J]. Journal of the
                 397: 77-86.                                       Taiwan Institute of Chemical Engineers, 2017, 80: 924-934.
            [23]  HUANG H  W, HUANG X F, XIE Y H,  et al. Fabrication of   [39]  WILLIAMS G, MCMURRAY H N. Inhibition of filiform corrosion
                 h-BN-rGO@PDA nanohybrids for composite coatings with enhanced   on polymer coated AA2024-T3  by hydrotalcite-like pigments
                 anticorrosion  performance[J]. Progress in Organic Coatings, 2019,   incorporating organic anions[J]. Electrochemical and  Solid-State
                 130: 124-131.                                     Letters, 2004, 7(5): B13-B15.
            [24]  ZHANG  C L, HE  Y, LI F,  et al. h-BN decorated with Fe 3O 4   [40]  WANG N, GAO  H  Y, ZHANG J,  et al. Anticorrosive waterborne
                 nanoparticles through mussel-inspired chemistry of dopamine for   epoxy (EP) coatings  based on sodium tripolyphosphate-pillared
                 reinforcing anticorrosion performance of epoxy coatings[J]. Journal   layered double hydroxides (STPP-LDHs)[J]. Progress  in Organic
                 of Alloys and Compounds, 2016, 685: 743-751.      Coatings, 2020, 135: 74-81.
            [25]  MA H (马浩), YANG R X (杨瑞霞), LI C J (李春静). Advances in   [41]  CHHETRI S, SAMANTA P, MURMU N C,  et al. Anticorrosion
                 2D transition metal dichalcogenides[J]. Materials Reports (材料导  properties  of epoxy composite coating reinforced by molybdate-
                 报), 2017, 31(3): 7-14.                            intercalated functionalized layered double hydroxide[J]. Journal  of
            [26]  WANG J Z, JIANG S W, SONG S, et al. Addition of molybdenum   Composites Science, 2019, 3(1): 1-14.
                 disulfide solid lubricant to WC-12Ni thermal spray cemented carbide   [42]  ZHELUDKEVICH M L, POZNYAK S K, RODRIGUES L M, et al.
                 powders through electroless Ni-MoS 2 co-deposition[J]. Journal of   Active protection coatings with layered double hydroxide
                 Alloys and Compounds, 2019, 786: 594-606.         nanocontainers of corrosion  inhibitor[J].  Corrosion Science,  2010,
            [27]  SUN J Z (孙建之), DONG Y (董岩), WANG D Q (王敦青), et al.   52(2): 602-611.
                 Photo-catalytic property and preparation of molybdenum disulfide   [43]  LI S F, SHEN Y M, LIU D B, et al. One-step fabrication of oriented
                 nanosheet[J]. Research and Exploration in Laboratory (实验室研究  Mg/Al-layered double hydroxide film on magnesium substrate with
                 与探索), 2019, 38(10): 50-52.                        urea hydrolysis and its corrosion resistance[J]. Composite Interfaces,
            [28]  GAO F,  DU A, MA R  N,  et al. Improved corrosion resistance of   2012, 19(8): 489-498.
                 acrylic  coatings  prepared with modified MoS 2 nanosheets[J].   [44]  ZHOU F Z (周凤珍), LI W Q (李文秋), WANG W J (王文静), et al.
                 Colloids and Surfaces A, 2020, 587: 124318-124326.     Influencing factors of lanthanum adsorption by Ca-montmorillonite
            [29]  QU Z P, WANG L, TANG H Y, et al. Effect of nano-SnS and nano-   and its application[J]. Chinese Journal of Applied Chemistry (应用化
                 MoS 2 on the corrosion protection performance of the polyvinylbutyral   学), 2019, 36(12): 1413-1421.
                 and zinc-rich  polyvinylbutyral coatings[J]. Nanomaterials, 2019,   [45]  YAN L, XU Z S, WANG X H. Synergistic effects of  organically
                 9(7): 956-968.                                    modified montmorillonite on the flameretardant and smoke
            [30]  ARUNKUMAR S, JEGATHISH V, SOUNDHARYA R,  et al.   suppression properties of transparent intumescent fireretardant
                 Evaluating the performance of MoS 2 based  materials for corrosion   coatings[J]. Progress in Organic Coatings, 2018, 122: 107-118.
                 protection  of mild  steel in an aggressive chloride environment[J].   [46]  MOHAMMADI I, IZADI M, SHAHRABI T, et al. Enhanced epoxy
                 RSC Advances, 2017, 7(28): 17332-17335.           coating based on cerium loaded Na-montmorillonite as active anti-
            [31]  XIA Y Q, HE Y, CHEN C L, et al. MoS 2 nanosheets modified SiO 2   corrosive  nanoreservoirs  for corrosion protection of mild steel:
                 to enhance the anticorrosive and mechanical performance of epoxy   Synthesis,  characterization,  and electrochemical behavior[J]. Progress
                 coating[J]. Progress in Organic Coatings, 2019, 132: 316-327.     in Organic Coatings, 2019, 131: 119-130.
            [32]  XIA Z B, LIU G Z, DONG Y Q, et al. Anticorrosive epoxy coatings   [47]  IZADI M, SHAHRABI T, MOHAMMADI I,  et al. Synthesis of
                                                                             +
                 based on polydopamine modified molybdenum disulfide[J]. Progress   impregnated Na -montmorillonite as an eco-friendly inhibitive
                 in Organic Coatings, 2019, 133: 154-160.          carrier and its subsequent protective effect on silane coated  mild
            [33]  JING  Y J, WANG P Q,  YANG Q B,  et al. Molybdenum disulfide   steel[J]. Progress in Organic Coatings, 2019, 135: 135-147.
                 with poly(dopamine) and epoxy groups as an efficiently anticorrosive   [48]  CONTRI G, BARRA G M, RAMOA S D, et al. Epoxy coating based
                 reinforcers in epoxy coating[J]. Synthetic Metals, 2020, 259: 116249-   on montmorillonite-polypyrrole: Electrical properties and prospective
                 116256.                                           application on corrosion protection of steel[J]. Progress in Organic
            [34]  CHEN C W (陈长伟). Study on the preparation and anticorrosion of   Coatings, 2018, 114: 201-207.
                 modified epoxy coating[D]. Qingdao: Qingdao University of   [49]  CHEN Y (陈宇), PAN Z K (潘正凯), CHEN J (陈均). Study on
                 Technology (青岛理工大学), 2015.                        waterborne polyaniline/montmorillonite/acrylic  emulsion  composite
            [35]  ZHAO X, ZHANG B B, JIN Z Q, et al. Epoxy coating modified by   anti-corrosive coating[J]. New Chemical Materials (化工新型材料),
                 2D MoS 2/SDBS:  Fabrication, anticorrosion  behavior and inhibition   2017, 45(11): 83-86.
                 mechanism[J]. RSC Advances, 2016, 6(100): 97512-97522.     [50]  SARI M G, SHAMSHIRI M, RAMEZANZADEH B. Fabricating an
            [36]  XU S, LI S Y, ZHANG M, et al. Fabrication of green alginate-based   epoxy composite coating with enhanced corrosion resistance through
                 and layered double hydroxides flame retardant for enhancing the fire   impregnation of functionalized graphene oxide-co-montmorillonite
                 retardancy properties of  polypropylene[J]. Carbohydrate  Polymers,   nanoplatelet[J]. Corrosion Science, 2017, 129: 38-53.
   47   48   49   50   51   52   53   54   55   56   57