Page 104 - 《精细化工》2023年第8期

P. 104

·1718· 精细化工 FINE CHEMICALS 第 40 卷

2.4 革样的透水汽性及柔软度分析 [5] WANG M N, SONG Z J. Improving target registration accuracy in
image-guided neurosurgery by optimizing the distribution of fiducial
分别对构筑涂层（CS 溶液选择溶液 F，MH-PA
points[J]. International Journal of Medical Robotics and Computer
溶液选择溶液 i，浸渍 3 层）后革样的透水汽性和柔 Assisted Surgery, 2009, 5(1): 26-31.
[6] ZHAO Z Q (赵芷芪), LI Q J (李秋瑾), DONG Z W (董中旺), et al.
软度进行了测试，结果如表 4 所示。
Progress in microcapsule prepared through layer-by-layer self-
assembly[J]. New Chemical Materials (化工新型材料), 2017,
表 4 浸渍对皮革物性的影响 45(10): 33-36.
Table 4 Effect of impregnation on physical properties of leather [7] AN W, MA J Z, XU Q N. Flame retardant, antistatic cotton fabrics
crafted by layer-by-layer assembly[J]. Cellulose, 2020, 27(14): 8457-
2
透水汽性/[mg/(10 cm ·24 h)] 柔软度/mN
8469.
未浸渍 343 10.2 [8] FAN Q Q, MA J Z, XU Q N. Multifunctional coatings crafted via
layer-by-layer spraying method[J]. Progress in Organic Coatings,
浸渍后 268 8.4
2018, 125: 215-221.
[9] ABU D, BANI J, AMRO B. The manufacture and characterization of
由表 4 可知，革样的透水汽性和柔软度均有所 casein films as novel tablet coatings[J]. Food and Bioproducts
Processing, 2007, 85(C3): 284-290.
降低，透水汽性降低可能是因为涂层堵塞了水汽分
[10] MA J Z, XU Q N, GAO D G. Study on synthesis and performances of
子透过皮革的通道，后续会从涂层微观结构调控等 casein resin grafting modified by caprolactam/acrylic esters/vinyl
角度来优化涂层的透水汽性；而柔软度降低则可能 acetate/organic silicone[J]. Advanced Materials Research, 2010, 978:
1267-1270.
是因为 CS 是刚性分子，加之 MH 的引入，以及涂 [11] ZHANG S, JIN X D, GU X Y, et al. The preparation of fully
层渗入皮革表面以下和皮革纤维之间的作用力也从 bio-based flame retardant poly(lactic acid) composites containing
casein[J]. Journal of Applied Polymer Science, 2018, 135(33): 46599.
一定程度上阻碍了胶原纤维的链段滑移性，因此， [12] WANG Y N (王雅楠). Fabrication and performance of antimicrobial
对皮革的柔软度产生了一定影响，后续会考虑选择 casein-based nano ZnO composite for leather finishing[D]. Xi'an:
Shaanxi University of Science & Technology (陕西科技大学), 2017.
非刚性的材料来改善此缺陷。 [13] XU Q N, MA J Z, ZHOU J H. Bio-based core-shell casein-based
silica nano-composite latex by double-in situ polymerization:
3 结论 Synthesis, characterization and mechanism[J]. Chemical Engineering
Journal, 2013, 228(28): 281-289.
[14] AN W, MA J Z, XU Q N, et al. Construction of hetero-structured
通过 LBL 技术在皮革上构筑抗菌-阻燃型生物
fillers to significantly enhance the fire safety of bio-based
质基涂层。对皮革进行抗菌性能及阻燃性能检测。 nanocomposite coating[J]. Applied Surface Science, 2021, 575: 1-11.
[15] TIAN X M (田雪梅). Research progress of metal hydroxide flame
结果表明，CS 的引入明显改善了 CA 抗菌性差的缺
retardant[J]. Plastics Additives (塑料助剂), 2011, (6): 13-15, 21.
点，MH 和 PA 的引入也提高了革样的阻燃性能。当 [16] LIU L H (刘立华), JIA J F (贾俊芳). Application of flame retardant
CS 溶液质量分数为 1.0%，MH-PA 溶液中 MH 溶液 of nano-sized aluminum hydroxide and its development prospects[J].
Chemial Technology Market (化工科技市场), 2008, 31(4): 6-9.
质量分数和 PA 溶液体积分数分别为 1.5%和 0.4%， [17] XIAO M (肖铭). Application research progress of magnesium
浸渍 3 层时，涂层对金黄色葡萄球菌有良好的抑菌 hydroxide flame retardant[J]. Fine and Specialty Chemicals (精细与
专用化学品), 2022, 30(2): 31-33.
效果（d=3.7 cm），与未浸渍革样相比，涂层的 HRR、 [18] GADKARI R R, ALI S W, JOSHI M, et al. Leveraging antibacterial
THR 分别降低了 42.31%、40.97%，且较好地保留了 efficacy of silver loaded chitosan nanoparticles on layer-by-layer
self-assembled coated cotton fabric[J]. International Journal of
革样的力学性能，成功制备了具有良好抗菌、阻燃 Biological Macromolecules, 2020, 162: 548-560.
性能的涂层，为功能性复合涂层的研究提供了参 [19] HADIDI M, POURAMIN S, ADINEPOUR F, et al. Chitosan
nanoparticles loaded with clove essential oil: Characterization,
考。但浸渍处理对皮革的物理性能有所影响，后续 antioxidant and antibacterial activities[J]. Carbohydrate Polymers,
会从涂层微观结构的调控角度来优化涂饰后皮革 2020, 236: 116075.
的物性。 [20] XU Q B, XIE L J, HELENA D, et al. Antibacterial cotton fabric with
enhanced durability prepared using silver nanoparticles and
carboxymethyl chitosan[J]. Carbohydrate Polymers, 2017, 177:
参考文献： 187-193.
[1] WANG Q Y (王琦研), DUAN B R (段宝荣), DUAN X N (段小宁), [21] SUDARSHAN N R, HOOVER D G, KNORR D. Antibacterial action
et al. Research progress of leather flame retardant technology[J]. of chitosan[J]. Food Biotechnology, 1992, 6(3): 257-272.
Leather Science and Engineering (皮革科学与工程), 2020, 30(3): [22] ZHU X K (朱行坤). The construction of char layers with enhanced
28-34. flame retardance and smoke suppression in polypropylene/
[2] TANG Y P (唐演萍). Development of primary materials for leather magnesium hydroxide[D]. Dalian: Dalian University of technology
finishing agents[J]. Guangdong Chemical Industry (广东化工), 2018, (大连理工大学), 2020.
45(1): 132. [23] YANG P X (杨佩鑫), MA X P (马晓谱), WU H G (吴汉光), et al.
[3] FAN M D (范孟丹), LIU S Q (刘帅旗), LUO W H (罗伟华), et al. Research progress in the application of phytic acid and phytate in
Research progress on layer-by-layer self-assembly edible preservation flame retardant modification for polymer blends[J]. Journal of
coatings[J]. Modern Food (现代食品), 2022, 28(10): 16-18. Beijing Institute of Fashion Technology (Natural Science Edition)
[4] LIU P Y (刘萍云), ZHANG C R (张长瑞), FENG J (冯坚) , et al. (北京服装学院学报: 自然科学版), 2020, 40(3): 88-95.
Mechanism studies of layer-by-layer self-assembled in situ [24] ZHANG Z (张泽), LIU S D (刘帅东), CUI Y Y (崔永岩). Research
polymerized polyaniline composite film formation[J]. Acta Chimica progress in application of phytic acid for flame retardant polymeric
Sinica (化学学报), 2007, 65(8): 742-748. materials[J]. China Plastics (中国塑料), 2021, 35(3): 139-150.

99 100 101 102 103 104 105 106 107 108 109