PDF下载 分享
[1]杨佩鑫,马晓谱,吴汉光,等.植酸及植酸盐在聚合物共混阻燃改性中的应用研究进展[J].北京服装学院学报(自然科学版),2020,(03):88-95.
 YANG Pei-xin,MA Xiao-pu,WU Han-guang,et al.Research Progress in the Application of Phytic Acid and Phytic AcidSalt in Blend Flame Retardant Modification for Polymers[J].Journal of Beijing Institute of fashion Technology,2020,(03):88-95.
点击复制

植酸及植酸盐在聚合物共混阻燃改性中的应用研究进展

参考文献/References:

[1] 滕琴. 建筑工程领域中节能型高分子材料的应用研究[J]. 化工设计通讯, 2017, 43(12): 72 -73.TENG Q. Study on application of energy-saving polymer materials inconstruction engineering field [J]. Chemical Engineering DesignCommunications, 2017, 43 (12): 72 -73.[2] 杨瑞芳, 周毅英. 节能型高分子材料在建筑工程中的应用[J].工程塑料应用, 2016, 44(7): 147 -150.YANG R F, ZHOU Y Y. Application of energy-saving polymers onconstruction engineering [ J]. Engineering Plastics Application,2016, 44(7): 147 -150.[3] 王为诺, 彭源. 我国装饰用织物阻燃性能评价标准综述及思考[J]. 中国纤检, 2014(20): 85 -87.WANG W N, PENG Y. Decorative fabric flame retardant perform-ance evaluation standard in China were reviewed and thinking [J].2014 (20): 85 -87.[4] 毛郑州, 吴彦城, 汪朝阳. 聚乳酸本质阻燃改性研究进展[J].化工新型材料, 2018, 46(4): 43 -46.MAO Z Z, WU Y C, WANG C Y. Research progress in inherentflame retardance modification of poly ( lactic acid) [ J]. NewChemical Materials, 2018, 46(4): 43 -46.[5] 胡爽, 胡源, 叶文,等. 天然高分子材料在阻燃技术中的研究进展[J]. 广州化工, 2014, 42(14): 10 -12.HU S, HU Y, YE W, et al. Research progress of the application ofnatural polymer materials in flame retardant technology [J]. Guang-zhou Chemical Industry, 2014, 42(14): 10 -12.[6] 马立群, 肖添远, 孟爽,等. 磷系阻燃剂在常用塑料中的应用进展[J]. 工程塑料应用, 2017, 45(11): 136 -139.MA L Q, XIAO T Y, MENG S, et al. Application progress of phos-phorous flame retardant in common plastics [J]. Engineering Plas-tics Application, 2017, 45(11): 136 -139.[7] 高帆. 高分子材料阻燃技术应用及发展探析[J]. 化工管理,2014(2): 91.GAO F. Analysis on application and development of polymer materi-al flame retardant technology [ J]. Chemical Enterprise Manage-ment, 2014(2): 91.[8] 杨立. 材料阻燃技术研究现状分析[J]. 科技传播, 2013 (26):112 -126.YANG L. Analysis of research status of material flame retardanttechnology [J]. Public Communication of Science & Technology,2013 (26): 112 -126.[9] 刘杰, 陈卓, 刘军海,等. 植酸提取的研究进展[J]. 辽宁化工,2019, 48(10): 986 -989.LIU J, CHEN Z, LIU J H, et al. Research progress of phytic acidextraction [ J]. Liaoning Chemical Industry, 2019, 48 ( 10 ):986 -989.[10] 史冰清. 植酸的测定及其提取工艺[J]. 现代食品, 2017(15):78 -80.SHI B Q. The determination of phytic acid and its extractionprocess[J]. Modern Food, 2017(15): 78 -80.[11] LIU X H, ZHANG Q Y, CHENG B W, et al. Durable flame re-tardant cellulosic fibers modified with novel, facile and efficientphytic acid-based finishing agent [ J]. Cellulose, 2018 (25):799 -811.[12] 刘杰, 童天娇, 刘军海. 植酸的生物活性及应用[J]. 四川化工, 2019(6): 15 -17.LIU J, TONG T J, LIU J H. Biological activity and application ofphytic acid [J]. Sichuan Chemical Industry, 2019(6): 15 -17.[13] WANG X, ZHANG L, WANG D Y, et al. Effect of phytic acid-modified layered double hydroxide on flammability and mechanicalproperties of intumescent flame retardant polypropylene system[J]. Fire and Materials, 2018(42): 213 -220.[14] 肖文成,关晋平,陈国强. 植酸对涤纶织物的阻燃整理[J]. 现代丝绸科学与技术, 2018, 33 (6): 13 -15.XIAO W C, GUAN J P, CHEN G Q. Flame retardant finishing ofpolyester fabric with phytic acid [ J]. Modern Silk Science &Technology, 2018, 33 (6): 13 -15.[15] CHENG X W, GUAN J P, TANG R C, et al. Phytic acid as abio-based phosphorus flame retardant for poly(lactic acid) nonwo-ven fabric [J]. Journal of Cleaner Production, 2016(124): 114-119.[16] LAUFER G, KIRKLAND C, GRULAN, et al. Intumescent Multi-layer Nanocoating, Made with Renewable Polyelectrolytes, forFlame-Retardant Cotton [ J]. Biomacromolecules, 2012 (13):2843 -2848.[17] SHEIKH J, BRAMHECHA I. Multifunctional modification of linenfabric using chitosanbased formulations [J]. International Journalof Biological Macromolecules, 2018(118): 896 -902.[18] CHEN Y B, LIU C, XING T L,et al. Combustion Properties andThermal Decomposition Kinetics of Flame retardant silk fabricstreated by physic acid and silica sols [ J]. Thermal Science,2018(22): 1665 -1671.[19] JIANG Z L, WANG C S, JI P, et al. Durable flame-retardant andantidroplet finishing of polyester fabrics with flexible polysiloxaneand phytic acid through layer-by-layer assembly and sol-gel process[J]. Journal of Applied Polymer Science, 2018(46414): 1 -10.[20] ZHANG X, GAO J, ZHANG X X, et al. Flame-retardant,highlysensitive strain sensors enabled by renewable phytic acid-dopedbiotemplate synthesis and spirally structure design [J]. ChemicalEngineering Journal, 2019(374): 730 -737.[21] ZHOU Y, DING C Y, QIAN X R, et al. Further improvement offlame retardancy of polyaniline-deposited paper composite throughusing phytic acid as dopant or co-dopant [J]. Carbohydrate Poly-mers, 2015(115): 670 -676.[22] ZHANG T, YAN H Q, SHEN L, et al. Chitosan/ Phytic AcidPolyelectrolyte Complex: A Green and Renewable IntumescentFlame Retardant System for Ethylene-Vinyl Acetate Copolymer[J]. Industrial & Engineering Chemistry Research, 2014(53):19199 -19207.[23] SUN Y R, YUAN B H, SHANG S, et al. Surface modification ofammonium polyphosphate by supramolecular assembly for enhan-cing fire safe properties of polypropylene [J]. Composite Part B,2020(181): 107588.[24] JIN X D, GU X Y, ZHANG S, et al. The fire performance ofpolylactic acid containing a novel intumescent flame retardant and in-tercalated layered double hydroxides [J]. J Mater Sci, 2017(52):12235 -12250.[25] WANG X, ZHANG L, Wang D Y, et al. Effect of phytic acid-modified layered double hydroxide on flammabilityand mechanicalproperties of intumescent flame retardant polypropylene system[J]. Fire and Materials, 2018(42): 213 -220.[26] COSTESA L, LAOUTIDA F, SYLVAIN B, et al. Brohezb . Phyticacid-lignin combination: A simple and e cient route for enhancingthermal and flame retardant properties of polylactide [J]. Europe-an Polymer Journal, 2017(94): 270 -285.[27] JIN X D, CUI S P, ZHANG S, et al. The preparation of a bio-polyelectrolytes based core-shell structure and its application inflame retardant polylactic acid composites [J]. Composites Part A,2019(124): 105485.[28] 邢亚琳. 生物基阻燃剂的合成及其对聚氨酯的阻燃改性研究[D]. 内蒙古:内蒙古大学, 2018.XING Y L. Synthesis of bio-based flame retardants and research offlame retardancy in polyurethane [ D]. Inner Mongolia: InnerMongolia University, 2018.[29] SONG P G, FANG Z P, FANG F, et al. Improved flame resist-ance and thermo-mechanical properties of epoxy resin nanocompos-ites from functionalized graphene oxide via self-assembly in water[J]. Composites Part B, 2019(165): 406 -416.[30] 夏庆容, 宗艳平. 植酸的开发及应用前景[J]. 黑龙江粮油科技,1997(2): 48 -49.XIA Q R, ZONG Y P. Development and application prospects ofphytic acid [J]. Journal of Heilongjiang Cereals and Oil Scienceand Technology, 1997(2): 48 -49.[31] WANG P J, LIAO J D, HU P X, et al. Facile fabrication ofbiobased P-N-C-containing nano-layered hybrid: Preparation,growth mechanism and its efficient fire retardancy in epoxy [J].Polymer Degradation and Stability, 2019(159):153 -162.[32] GAO Y Y, DENG C, WANG Y Z,et al. A novel bio-based flameretardant for polypropylene from phytic acid [J]. Polymer Degra-dation and Stability,2019(161): 298 -308.[33] 李德福, 邓聪, 王玉忠等. 植酸钙/ 聚磷酸铵膨胀阻燃剂对增韧改性聚乳酸性能的影响[ J]. 高分子材料科学与工程,2020(3):23 -29.LI D F, DENG C, WANG Y Z,et al. Effect of calcium phytate/ammonium polyphosphate intumescent flame retardant on the prop-erties of toughen poly(lactic acid) [J]. Polymer Materials Science& Engineering, 2020(3):23 -29.[34] YANG W, YU C, Hu Y, et al. Manufacturing, mechanical andflame retardant properties of poly(lactic acid) biocomposites basedon calcium magnesium phytate and carbon nanotubes [J]. Com-posites Part A, 2018(110): 227 -236.[35] WANG J L, ZHAN J, MU X W, et al. Manganese phytate dottedpolyaniline shell enwrapped carbon nanotube: Towards the rein-forcements in fire safety and mechanical property of polymer [J].Journal of Colloid and Interface Science, 2018(529): 345 -356.[36] 孙政. 三聚氰胺基阻燃剂的合成及其阻燃性能的研究[D].上海:东华大学, 2016.SUN Z. Study on the synthesis and flame retardant properties ofmelamine-based flame retardants [D]. Shanghai:Donghua Univer-sity,2016.

备注/Memo

收稿日期: 2020 -05 -17作者简介: 杨佩鑫(1997—),男,硕士研究生,从事基于植酸的阻燃剂体系的制备及其应用研究。通信作者: 朱志国(1976—),男,博士,教授;E-mail: clyzzg@ bift. edu. cn。

更新日期/Last Update: 2020-09-30