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第 5 期王伟烽，等: 纳米 SiO 2 改性水性聚脲的制备与性能 ·961·

能最佳，吸水率和水接触角分别为 11.12%、75.24°， [9] ZHAI L L, LIU R W, PENG F, et al.Synthesis and characterization of
nanosilica/waterborne polyurethane end-capped by alkoxysilane via a
拉伸强度和断裂伸长率各为 29.7 MPa、265%。热分
sol-gel process[J]. Journal of Applied Polymer Science, 2013, 128(3):
解温度与未改性涂膜相比在整个过程中提高了 10 ℃ 1715-1724.
[10] National Technical Supervision Bureau (国家技术监督局). Estimation
左右，耐热性能得到提高。 of colour of varnishes, boiled oils and thinners: GB/T 1722—
（3）制备的 2%纳米 SiO 2 改性的水性聚脲涂膜 1992[S]. Beijing: China National Standardization Administration (中
国国家标准局), 1992: 495-499.
不仅干燥时间快、附着力强，而且耐酸碱腐蚀性良
[11] Ministry of Chemical Industry ( 化学工业部 ). Rubber,
好，接下来仍需要进一步对改性水性聚脲的应用价 vulcanizedorthermoplastic-Determination oftensilestress-strainproperties:
值进行研究。 GB/T 528 — 1998[S]. Beijing: China National Standardization
Administration (中国国家标准局), 1998: 29-42.
参考文献： [12] Ministry of Chemical Industry (化学工业部). Determination of
drying time of paint film and putty film: GB/T 1728—1979[S].
[1] YANG Y, ZHI Z L, YANG X J, et al. Synthesis and characterization Beijing: China National Standardization Administration (中国国家标
of novel polyurea-imides[J]. European Polymer Journal, 1998, 准局), 1979: 31-33.
34(12): 1893 -1897. [13] China National Standardization Management Committee (中国国家
[2] RAWLINGS D C, OLLI L K, GRANGER M, et al. Coating: 标准化管理委员会). Paints and varnishes-Determination of film
US9191248B1[P]. 2001-2-20. hardness by pencil test: GB/T 6739 — 2006[S]. Beijing: China
[3] HU H X, YU S R, WANG M Y, et al. Tribological properties of National Standardization Administration (中国国家标准局), 2006:
epoxy/polyurea composite[J]. Polymers Advanced Technologies, 1-5.
2009, 20(9): 748 -752. [14] China National Standardization Management Committee (中国国家
[4] HARRIS R F, KINNEY J E, SAVINA M R, et al. Synthesis and 标准化管理委员会). Paints and varnishes-Rapid-deformation(impact
characterization of urea-based polyureas: 1. Urea-terminated resistance) tests: GB/T 20624.1—2006[S]. Beijing: China National
poly(1,6-hexamethyleneurea) polyol dispersions[J]. Polymer, 1995, Standardization Administration (中国国家标准局), 2006: 1-6.
36(22): 4275-4285. [15] National Bureau of Quality and Technical Supervision (国家质量技
[5] ZHANG M L (张密林), DING L G (丁立国), JING X Y (景晓燕). 术监督局). Paints and varnishes-Cross cut test for films: GB/T 9286—
Preparation, modification and application of nano silica[J].Chemical 1998[S]. Beijing: China National Standardization Administration (中
Engineer (化学工程师), 2003, 99(6): 11-14. 国国家标准局), 1998: 547-555..
[6] GUO J H, LIU Y C, CHAI T, et al.Synthesis and properties of a [16] China National Standardization Administration (国家标准化局).
nano-silica modified environmentally friendly polyurethane adhesive[J]. Determination of chemical resistance of paint films: GB/T 1763—
RSC Advances, 2015, 5(56): 44990-44997. 1979[S]. Beijing: China National Standardization Administration (中
[7] HAN Y T, CHEN Z, DONG W, et al. Improved water resistance, 国国家标准局), 1979: 544-545.
thermal stability, and mechanical properties of waterborne polyurethane [17] NIKIE M M A, TEHRANI Z M. Thermal and mechanical properties
nanohybrids reinforced by fumed silica via in situ polymerization[J]. of polyurethane rigid foam/modified nanosilicacomposite[J].
High Performance Polymers, 2014, 27(7): 824-832. Polymer Engineering & Science, 2010, 50(3): 468-473.
[8] LI G D (李国栋). Synthesis and improving abrasion resistance of [18] LI P L (李培礼), LI P H (李鹏浩), ZHU G J (朱广军), et al. Preparation
polyurea elastomer[D]. Dalian: Dalian Maritime University (大连海 and properties of siloxane-modified two-component waterborne
事大学), 2015. polyurethane[J]. Fine Chemicals (精细化工), 2016, 33(4): 377-382.

（上接第 923 页） [10] YAO Lianzhen (姚连珍), YANG Wenfang (杨文芳). Application of
chromic microcapsules to textiles[J]. Dyeing Finishing (印染), 2014,
[4] HAO Xiaoxiu (郝晓秀), YIN Xing (尹兴), SUN Cheng (孙诚), et al.
Application of papermaking retention agent in photochromic 40(4): 48-51.
[11] ZHOU Y H, YAN Y F, DU Y, et al. Preparation and application of
anti-counterfeiting paper[J]. Packaging Engineering (包装工程),
2015, 36(3): 6-9, 21. melamine-formaldehyde photochromic microcapsules[J]. Sensors
[5] LÜ Bo (吕博), ZHANG Hanli (张韩利), LIU Yuting (刘玉婷), et al. and Actuators B: Chemical, 2013, 188: 502-512.
Research progress on photochromic indolinespirooxazine[J]. New [12] KUANG Ziming (况子明). Preparation of polyurethane-spirooxazine
Chemical Materials (化工新型材料), 2014, 42(12): 13-15, 21. photochromic microcapsule and the finishing on silk fabric[D].
Hefei: Anhui Agricultural University (安徽农业大学), 2015.
[6] HARBRON E J, DAVIS C M, CAMPBELL J K, et al. Photochromic
dye-doped conjugated polymer nanoparticles: Photomodulated [13] LV K, LIU D Z, LI W, et al. Reflection characteristics of cholesteric
emission and nanoenvironmental characterization[J]. The Journal of liquid crystal microcapsules with different geometries[J]. Dyes and
Physical Chemistry C, 2009, 113(31): 13707-13714. Pigments, 2012, 94(3): 452-458.
[7] ABDOLLAHI A, MAHDAVIAN A R, SALEHI-MOBARAKEH H. [14] YANG Xiaoli (杨晓莉), CHEN Zhiyuan (陈志远), ZHENG Qun (郑
Preparation of stimuli-responsive functionalized latex nanoparticles: 群), et al. Preparation and photochromism of novel poly(methyl
The effect of spiropyran concentration on size and photochromic methacrylate) microspheres containing spirooxazine[J]. Chinese
properties[J]. Langmuir, 2015, 31(39): 10672-10682. Journal of Synthetic Chemistry (合成化学), 2018, 26(7): 485-489.
[8] SAKI Y, SHU K, SHINJI K, et al. Microfluidic fabrication of [15] LEE E M, CHOI M S, HAN Y A, et al. Preparation and
morphology-controlled polymeric microspheres of blends of photochromism of poly(methyl methacrylate) microspheres containing
poly(4-butyltriphenylamine) and poly(methyl methacrylate)[J]. spirooxazine[J]. Fibers and Polymers, 2008, 9(2): 134-139.
Materials, 2018, 11(4): 582-592. [16] ZHANG Yanyan (张妍妍), YIN Yunjie (殷允杰), WANG Chaoxia
[9] MORA-HUERTAS C E, FESSI H, ELAISSARI A. Polymer-based (王潮霞). Preparation and properties of photochromic microcapsule
nanocapsules for drug delivery[J]. International Journal of via emulsification-chemical cross-linking method[J]. Fine Chemicals
Pharmaceutics, 2010, 385(1/2): 113-142. (精细化工), 2018, 35(10): 1636-1640.

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