Page 57 - 《精细化工》2021年第10期
P. 57

第 10 期                     杨建军,等:  改性水性聚氨酯防腐涂料的最新研究进展                                   ·1987·


            [9]   LIANG X Z (梁西振). Research progress of waterborne polyurethane   [28]  MASSOUD M,  AZIZ M, RAJENDER S V. MXenes and
                 coatings[J]. Chemical Engineering Design Communications (化工设  ultrasonication[J]. Journal of Materials Chemistry A, 2019, 10(7):
                 计通讯), 2020, 46(11): 33-34.                        10843-10857.
            [10]  SI Z K (司政凯), ZHANG M  (张梦), SU X D (苏向东),  et al.   [29]  GAO  Q S, FENG M J,  LI E,  et al. Mechanical, thermal,  and
                 Research status and development trend of environmental friendly   rheological properties of Ti 3C 2T xMXene/thermoplastic polyurethane
                 waterborne coatings[J]. Coating and Protection (涂层与防护), 2021,   nanocomposites[J]. Macromolecular Materials and  Engineering,
                 42(2): 24-29, 46.                                 2020, 305(10): 2000343.
            [11]  ZUO S S (左莎莎), XU H (徐惠), PENG Z J (彭振军), et al. Study   [30]  ALMORA O, BARAN D, BAZAN G C, et al. Device performance
                 on waterborne polyurethane temperature resistant and anticorrosive   of emerginphotovoltaic materials (Version 1)[J]. Adv Energy Mater,
                 coating modified  by epoxy resin and silicone[J]. China Plastics   2021, 11(11): 2002774.
                 Industry (塑料工业), 2020, 48(4): 53-57.          [31]  WYATT B C, ROSENKRANZ A,  ANASORI B. 2D  MXenes:
            [12]  YANG Y K (杨玉坤), WANG X (王鑫), ZHAO  X  Y (赵雄燕).   Tunable mechanical and tribological[J]. Properties Adv Mater, 2021,
                 Functionalization and properties of waterborne polyurethane coatings[J].   33(17): 2007973.
                 Applied Chemical Industry (应用化工), 2020, 49(4): 1039-1043.     [32]  SINAA H, JIANG X T, ZHANG H, et al. Perspectives on solution
            [13]  YUAN T M (袁天梦), ZHANG B X (张博晓), TIAN J (田军), et al.   processing  of two-dimensional MXnes[J]. Materials Today, 2021,
                 Research status of  waterborne polyurethane  anticorrosive  coatings[J].   DOI: 10.1016/j.mattod.2021.02.010.
                 Modern Paint & Finishing (现代涂料与涂装), 2017, 20(2): 31-34.     [33]  SHENG X, LI S, HUANG H, et al. Anticorrosive and UV-blocking
            [14]  ZENG X G (曾宪光), GONG M (龚敏), LIU C H (刘朝辉), et al.   waterborne polyurethane composite coating containing novel
                 Research status of waterborne polyurethane coatings[J]. Electroplating   two-dimensional Ti 3C 2 MXene nanosheets[J]. Mater Sci,  2021, 56:
                 & Finishing (电镀与涂饰), 2018, 37(22): 1060-1067.     4212-4224.
            [15] LIU L (刘蕾). Preparation and properties of waterborne polyurethane   [34]  LIU D (刘丹), LI J W (李嘉唯), TAN H P (谭和平), et al. Research
                 composites[J]. Chemical Engineer (化学工程师), 2020, 34(10): 80-83.     progress of graphene modified polyurethane composites[J]. Guangzhou
            [16]  LIU Q (刘巧), PENG  Y (彭燕), WANG X  (王煦). OMMT/    Chemical Industry (广州化工), 2020, 48(20): 23-24.
                 electrochemical behavior of waterborne polyurethane modified  by   [35] ZHANG  Y  (张艳), DAI  L (戴雷), HUANG Y  Y (黄友元),  et al.
                 corrosion inhibitor[J]. China Plastics  Industry (塑料工业), 2020,   Research progress  of  graphene waterborne composite anticorrosive
                 48(10): 112-116,174.                              coatings[J]. Surface Technology (表面技术), 2017, 46(10): 42-49.
            [17]  XIA Y Q, HE Y, CHEN C L, et al. MoS 2 nanosheets modified SiO 2   [36] ZHANG  Y  (张月),  HUANG W B  (黄微波), LYU P (吕平),  et al.
                 to enhance the anticorrosive and mechanical performance of epoxy   Research progress on improving  the anticorrosive properties  of
                 coating[J]. Nanotechnology Weekly, 2019, 32: 316-327.     polyurethane coatings[J]. Polyurethane Industry (聚氨酯工业), 2020,
            [18]  MOHAMMA A A, UBAIR A S, El-SAYED M S, et al. Influence of   35(3): 5-7,35.
                 SiO 2 content and exposure periods on the anticorrosion behavior of   [37]  ZHAO Z,  ZHANG W, CHEN G. Polyphosphazene nanotube and
                 epoxy nanocomposite coatings[J]. Coatings, 2020, 10(2): 118-132.     modified waterborne polyurethane prepared by in situ polymerization[J].
            [19]  YIN C S (尹春生). Nano SiO 2 Polyurethane/epoxy  anticorrosive   Iran Polym, 2020, 29: 493-500.
                 coating modified  with zinc aluminum alloy[D]. Nanjing: Nanjing   [38]  BAI T,  LYU L,  DU W,  et al. Improving the tribological and
                 University of Aeronautics and Astronautics (南京航空航天大学),   anticorrosion performance of waterborne polyurethane coating by the
                 2018.                                             synergistic effect between  modified graphene oxide and
            [20]  FENG L N, LI W X, BAO J R, et al. Synthesis and luminescence   polytetrafluoroethylene[J]. Nanomaterials, 2020, 10: 137-155.
                 properties  of core-shell-shell composites:  SiO 2@PMDA-Si-Tb@SiO 2   [39]  CUI J C,  XU J  C, LI J,  et al. A crosslinkable graphene oxide in
                 and SiO 2@PMDA-Si-Tb-phen@SiO 2[J]. Nanomaterials, 2019, 9(2):   waterborne polyurethane anticorrosive coatings:Experiments and
                 189-207.                                          simulation[J]. Composites Part B, 2020, 188: 1359-8368.
            [21]  KUMAR A, MEENA M K. Fabrication of durable corrosion-resistant   [40]  QIN C Q, DENG H H, AO S S, et al. High-quality graphene derivative:
                 polyurethane/SiO 2 nanoparticle composite coating on aluminium[J].   Hydroxylated graphene prepared by modification of aromatic ring[J].
                 Colloid Polym Sci, 2021, 299: 915-924.            Carbon, 2020, 176: 290-295.
            [22]  KAMALON R, KIKKERI N S M, MAHESH B H, et al. Fabrication   [41]  CAO G H, YAN J H, NING X X, et al. Antibacterial and antibiofilm
                 of ZnO/rGO and ZnO/MWCNT nanohybrids to reinforce the   properties of graphene and its derivatives[J]. Colloids and Surfaces
                 anticorrosion  performance of polyurethane coating[J]. FlatChem,   B: Biointerfaces, 2021, 200: 111588.
                 2020, 24: 100208.                             [42]  WU Y T, WEN S G, CHEN K M, et al. Enhanced corrosion resistance
            [23]  RAHMAN M M.  Polyurethane/zinc  oxide (PU/ZnO) composite—   of waterborne polyurethane containing sulfonated graphene/zinc
                 Synthesis, protective property and application[J]. Polymers, 2020,   phosphate composites[J]. Progress in Organic Coatings, 2019, 132:
                 12(7): 1535-1558.                                 409-416.
            [24]  SANKARAN A, KUMARAGURU K. The novel two step synthesis   [43]  WEN J G, GENG W, GENG H Z, et al. Improvement of corrosion
                 of CuO/ZnO and CuO/CdO nanocatalysts for enhancement of catalytic   resistance of waterborne polyurethane coatings by covalent and
                 activity[J]. Journal of Molecular Structure, 2020, 1221: 128772.     noncovalent grafted graphene oxide nanosheets[J]. ACS Omega,
            [25]  JIANG G, LI  X,  CHE Y,  et al. Antibacterial and anticorrosive   2019, 4(23): 20265-20274.
                 properties of CuZnO@RGO waterborne polyurethane coating in   [44]  LUO J, WANG J H, WEN S G, et al. Improved corrosion resistance
                 circulating cooling water[J].  Environ Sci Pollut Res, 2019, 26:   based on APTES-grafted reduced sulfonated graphene/waterborne
                 9027-9040.                                        polyurethane coatings[J]. Journal of Coatings Technology and
            [26]  CAI M, YAN H, LI Y T, et al. Ti 3C 2T x/PANI composites with tunable   Research, 2018, 15(5): 1107-1115.
                 conductivity towards anticorrosion application[J]. Chemical Engineering   [45]  ČECH  B K,  HOLEŠOVÁ S, BILÝ M,  et al. CuO and CuO/
                 Journal, 2021, 410: 128310.                       vermiculite basednanoparticles in antibacterial PVAc nanocomposites[J].
            [27]  NIE Y, HUANG J K, MA S Y, et al. MXene-hybridized silane films   Inorg Organomet Polym, 2020, 30: 4218-4227.
                 for metal anticorrosion and antibacterial applications[J]. Applied
                 Surface Science, 2020, 527: 146915.                                         (下转第 1995 页)
   52   53   54   55   56   57   58   59   60   61   62