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第 9 期姜大伟，等: Na 阻燃改性亚麻纤维及其对纤维性能的影响 ·1815·

参考文献： [14] Weng P, Yin X, Yang S, et al. Functionalized magnesium hydroxide
fluids/acrylate-coated hybrid cotton fabric with enhanced mechanical,
[1] Zhang Daxing (张大省). Graphic fibrous material (图解纤维材 flame retardant and shape-memory properties[J]. Cellulose, 2018,
料)[M]. Beijing: China Textile Press, 2018. 25(2): 1425-1436.
[2] Baugh G. The fashion designer's textile directory (2nd Revised [15] Veerender S, Santanu B, Kumar R, et al. Synthesis of zinc carbonate
edition) [M]. Publisher: Thames & Hudson Ltd, March 1, 2018. nanoneedles, a potential flame retardant for cotton textiles[J].
[3] Wang Lijuan (王丽娟), Song Guangli (宋广礼), Li Hongxia (李红 Cellulose, 2018, 25(10): 6191-6205.
霞). Research on the properties of flax knitting fabric[J]. Wool
[16] Standardization Administration of the People's Republic of China (中
Textile Journal (毛纺科技), 2007, 35(5): 60-63.
国国家标准化管理委员会). GB/T 14337—2008:Testing method for
[4] Andersons J, Joffe R. Estimation of the tensile strength of an oriented
tensile properties of man-made staple fibres (化学纤维短纤维拉伸
flax fiber-reinforced polymer composite[J]. Composites, Part A:
性能试验方法)[S]. Beijing: Standards Press of China, 2008: 1-16.
Applied Science & Manufacturing, 2011, 42(9): 1229-1235.
[17] Standardization Administration of the People's Republic of China (中
[5] Pornwannachai W. Flame retardant natural fibre composites for high 国国家标准化管理委员会 ). GB/T5454-1997:Textile burning
performance applications[D]. Manchester: University of Bolton, 2015. performance test oxygen index method (纺织品燃烧性能实验氧指
[6] Prabhakar M N, Rehman Shah A U, Song J I. Improved flame- 数法) [S]. Beijing: Standards Press of China, 1997: 1-5.
retardant and tensile properties of thermoplastic starch/flax fabric [18] Standardization Administration of the People's Republic of China (中
green composites[J]. Carbohydrate Polymers, 2017, 168(7): 201-211. 国国家标准化管理委员会). GB/T5455-1997: Textile burning
[7] Wang Fei (王斐), Deng Qigang (邓启刚). The preparation and performance test vertical method (纺织品燃烧性能实验垂直法) [S].
application of degraded chitosan flame retardant containing Beijing: Standards Press of China, 1997: 1-5.
phosphorus on linen fabric[J]. Fine Chemicals (精细化工), 2015, [19] Sun Dongyang (孙冬阳), Zhang Tingting (张亭亭), Chen Yiren (陈
32(4): 461-465. 益人), et al. Analysis on chemical composition and fiber structure of
[8] Qi Linlin (祁琳琳), Deng Qigang (邓启刚), Chen Zhaohui (陈朝晖), france flax fiber[J]. Advanced Textile Technology (现代纺织技术),
et al. Preparation of macromolecular intumescent flame retardant and 2018, 26(3): 18-24.
its application to linen fabrics[J]. Dyeing & Finishing (印染), 2017, [20] Ashter S A. 4-Chemistry of cellulosic polymers [M]. Oxford:
43(21): 9-13. Technology & Applications of Polymers Derived from Biomass,
[9] Qi Linlin (祁琳琳), Deng Qigang (邓启刚), Chen Zhaohui (陈朝晖). William Andrew, Oxford, 2018.
Flame retardant finish of linen fabric with montmorillonite/ chitosan [21] Mohamed Traoré, Joeri Kaal,Antonio Martínez Cortizas, et al.
composite system containing phosphorus[J]. Dyeing & Finishing (印 Differentiation between pine woods according to species and
染), 2016, 42(16): 1-5. growing location using FTIR-ATR[J]. Wood Science and
[10] Teixeira M, Sonnier R, Otazaghine B, et al. Radiation-grafting of Technology, 2018, 52(2): 487-504.
flame retardants on flax fabrics-A comparison between different [22] Cláudio M Lousada, Sophonrat N, Yang W. Mechanisms of
flame retardant structures[J]. Radiation Physics & Chemistry, 2018, Formation of H, HO, and water and of water desorption in the early
145(11): 135-142. stages of cellulose pyrolysis[J]. Journal of Physical Chemistry C,
[11] Raymond, Roland, Rodolphe, et al. Grafting of phosphorus flame 2018, 122(23): 12168-12176.
retardants on flax fabrics: Comparison between two routes[J]. [23] Long Y, Yu Y, Chua Y W, et al. Acid-catalysed cellulose pyrolysis at
Polymer Degradation and Stability, 2018, 147(1): 25-34. low temperatures[J]. Fuel, 2017, 193(4): 460-466.
[12] Li Qianglin (李强林), Huang Fangqian (黄方千), Wei Yujun (魏玉 [24] Leng Erwei (冷尔唯), Gong Xun (龚勋), Zhang Yang (张扬), et al.
君), et al. Flame retardant finish of T/C fabric with ammonium Progress of cellulose pyrolysis mechanism: cellulose evolution based
polyphosphate modified by metal ions[J]. Dyeing & Finishing (印 on intermediate cellulose[J]. CIESC Journal (化工学报), 2018,
染), 2017, 43(19): 11-16. 69(1): 239-248.
[13] Gao Zhenhua (高振华), Yao Tiantian (姚田田), Xia Yanzhi (夏延 [25] Liu Ziyi (刘子怡), Xu Miaojun (许苗军), Li Bin (李斌), et al.
+
+
致), et al. Flame retardant cellulose fibers modified by K or Na [J]. Preparation and properties of flame retardant cotton fabric by surface
Polymer Materials Science and Engineering (高分子材料科学与工 chemical grafted modification[J]. Chemical Journal of Chinese
程), 2013, 29(5): 146-147. University (高等学校化学学报), 2017, 38(8): 1477-1483.

（上接第 1766 页） [20] Kumar S, Dutta J, Dutta P K. Preparation and characterization of
N-heterocyclic chitosan derivative based gels for biomedical
[15] Chen Bowei (陈擘威). The research of zinc-based aerogels[D].Hefei: applications[J]. International Journal of Biological Macromolecules,
University of Science and Technology of China (中国科学技术大 2009, 45(4): 330-337.
学), 2014. [21] Xia Chaohong (夏朝红), Dai Qi (戴奇), Fang Wei (房韦), et al.
[16] Zhou H, Xu L, Wen Y, et al. Ring-like structured chitosan-metal Research on the IR spectrscopy of kinds of polysaccharide [J].
hydrogel: Mass production, formation mechanism and applications[J]. Journal of Wuhan University of Technology (武汉理工大学学报),
Journal of Colloid and Interface Science, 2017, 490: 233-241. 2007, 29(1): 45-47.
[17] Abdelkrim E K, Mosto B. Chitosan bio-based organic-inorganic [22] Li Dongying (李东英), An Daizong (安黛宗), Liu Heng (刘珩).
hybrid aerogel microspheres[J]. Chemistry–A European Journal, Preparation of nanometer-ZnO and sheet-ZnO by uniform-
2012, 18(27): 8264-8277. precipitation method[J]. Yunnan Chemical Technology (云南化工),
[18] Kuthirummal N, Dean A, Yao C, et al. Photo-formation of gold 2003, 30(3): 37-39.
nanoparticles: Photoacoustic studies on solid monoliths of Au(Ⅲ)- [23] Masika E, Mokaya R. High surface area metal salt templated carbon
chitosan-silica aerogels[J]. Spectrochimica Acta, Part A: Molecular aerogels via a simple subcritical drying route: Preparation and CO 2
and Biomolecular Spectroscopy, 2008, 70(3): 700-703. uptake properties[J]. RSC Advances, 2013, 3: 17677-17681.
[19] Du A, Zhou B, Shen J, et al. A versatile sol-gel route to monolithic [24] Antonietti M, Fechler N, Fellinger T P. Carbon aerogels and
oxidic gels via polyacrylic acid template[J]. New Journal of monoliths:Control of porosity and nanoarchitecture via sol–gel
Chemistry, 2011, 35(5): 1096-1102. routes[J]. Chemistry of Materials, 2014, 26(1): 196-210.

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