Journal of Textile Research ›› 2020, Vol. 41 ›› Issue (11): 181-188.doi: 10.13475/j.fzxb.20200102509
• Comprehensive Review • Previous Articles Next Articles
LIU Xiaohan1, TIAN Miao1,2, WANG Yunyi1,2, LI Jun1,2()
CLC Number:
[1] | 李强林, 黄方千, 肖秀婵, 等. 新型无卤聚合物阻燃剂的研究进展[J]. 纺织学报, 2019,40(4):177-184. |
LI Qianglin, HUANG Fangqian, XIAO Xiuchan, et al. Research progress of new halogen-free polymer flame retardants[J]. Journal of Textile Research, 2019,40(4):177-184. | |
[2] | IYER R V, VIJAYAN K, Decomposition behaviour of Kevlar 49 fibres: part I. at T≈Td[J]. Bulletin of Materials Science, 1999,22(7):1013-1023. |
[3] | IYER R V, SUDHAKAR A, VIJAYAN K. Decomposition behaviour of Kevlar 49 fibres: part II. at T values < Td[J]. High Performance Polymers, 2006,18(4):495-517. |
[4] |
AN S K, BARKER R L, STULL J O. Flammability measurement and thermal aging of chemical protective suit materials[J]. Fiber, 1999,55(10):464-472.
doi: 10.2115/fiber.55.10_464 |
[5] | CUI Zhiying, MA Chunjie, LV Na. Effects of heat treatment on the mechanical and thermal performance of fabric used in firefighter protective clothing[J]. Fibres & Textiles in Eastern Europe, 2015,23(2):74-78. |
[6] | 邓梦, 王云仪, 田苗. 消防服的老化降解及安全使用寿命预测[J]. 上海纺织科技, 2019,47(10):21-27. |
DENG Meng, WANG Yunyi, TIAN Miao. Aging degradation and safety life prediction of fire protection clothing[J]. Shanghai Textile Science & Technology, 2019,47(10):21-27. | |
[7] | MOEIN Rezazadeh. Evaluation of performance of in-use firefighters' psrotective clothing using non-destructive Tests[D]. Saskatchewan: University of Saskatchewan Saskatoon, 2013: 68-70. |
[8] | TORVI D A, DALE J D. Effect of variation in thermal properties on the performance of flame-resistant fabrics for flash fires[J]. Textile Research Journal, 1998,68:787-796. |
[9] | TORVI D A, HADJISOPHOCLEOUS G V. Research in protective clothing for firefighters: state of the art and future directions[J]. Fire Technol, 1999,35:111-130. |
[10] | 张渭源. 服装舒适性与功能[M]. 北京: 中国纺织出版社, 2011: 151-153. |
ZHANG Weiyuan. Clothing comfort and function[M]. Beijing: China Textile & Apparel Press, 2011: 151-153. | |
[11] | PETER Thorpe. Development of non-destructive test methods for assessment of in-use fire fighter's protective clothing[D]. Saskatchewan: University of Saskatchewan Saskatoon, 2004: 63-65. |
[12] | MACKENZIE Fulton. Evaluating the performance of thermally and UV aged firefighters' protective clothing using both destructive and non-destructive methods[D]. Saskatchewan: University of Saskatchewan Saskatoon, 2017: 65-68. |
[13] | LU Y, WANG L, GAO Q. Predicting tensile strength of fabrics used in firefighters' protective clothing after multiple radiation exposures[J]. Journal of The Textile Institute, 2018,109:338-344. |
[14] |
ROSSI R M, BOLLI W, STAMPFLI R. Performance of firefighter's protective clothing after heat exposure[J]. International Journal of Occupational Safety and Ergonomics, 2008,14(1):55-60.
doi: 10.1080/10803548.2008.11076747 pmid: 18394326 |
[15] | 韩伦. 消防服面料在受到热辐射和摩擦损伤后的性能变化情况研究[D]. 长春:吉林大学, 2015: 48-50. |
HAN Lun. Study on the change of performance of fire protection clothing fabrics after thermal radiation and friction damage[D]. Changchun: Jilin University, 2015: 48-50. | |
[16] | 孟瑾. 日晒对消防服织物性能的影响[D]. 上海:东华大学, 2012: 35-39. |
MENG Jin. Effects of sun exposure on the properties of fire protection clothing fabrics[D]. Shanghai: Donghua University, 2012: 35-39. | |
[17] | GU H. Ultraviolet treatment on high performance filaments[J]. Materials and Design, 2005,26:47-51. |
[18] | 马春杰. 环境因素对消防服织物性能的影响研究[D]. 上海:东华大学, 2014: 47-50. |
MA Chunjie. Research on the influence of environmental factors on the performance of fire protection clothing fabrics[D]. Shanghai: Donghua University, 2014: 47-50. | |
[19] | 马春杰, 崔志英. 光湿复合老化对消防服用织物性能的影响[J]. 纺织学报, 2015,36(9):82-88. |
MA Chunjie, CUI Zhiying. Effects of light and wet compound aging on the properties of fire-fighting fabrics[J]. Journal of Textile Research, 2015,36(9):82-88. | |
[20] | WANG Lijun, HE Jiazhen, LU Yehu. Interaction effects of washing and abrasion on thermal protective performance of flame retardant fabrics[J]. International Journal of Occupational Safety and Ergnomics, 2018,9:1-9. |
[21] | STULL J O, DODGEN C R, CONNOR M B, et al. Evaluating the effectiveness of different laundry approaches for decontaminating structural firefighting protective clothing[J]. Performance of Protective Clothing, 1996,5:447-468. |
[22] | 翁毅. 纺织品耐老化性能测试方法[J]. 上海纺织科技, 2013,41(12):11-13. |
WENG Yi. Test method for aging resistance of textiles[J]. Shanghai Textile Science & Technology, 2013,41(12):11-13. | |
[23] | ANAND S C. Effect of laundering on the dimensional stability and distortion of knitted fabrics[J]. AUTEX Research Journal, 2002,2(2):85-100. |
[24] | 陈国华. 机织物拉伸断裂过程模拟及强度预测[D]. 上海:东华大学, 2006: 65-70. |
CHEN Guohua. Simulation of tensile fracture process and strength prediction of woven fabrics[D]. Shanghai: Donghua University, 2006: 65-70. | |
[25] | 冷鹃, 肖爱平, 程毅, 等. 对苎麻单纤维拉伸速度设定的探讨[J]. 中国纤检, 2007(8):46-47. |
LENG Juan, XIAO Aiping, CHENG Yi, et al. Discussion on the setting of ramie single fiber drawing speed[J]. China Fiber Inspection, 2007(8):46-47. | |
[26] | 杨海燕. 热辐射对消防服用织物热防护性能及耐久性的影响[D]. 上海:东华大学, 2011: 77-80. |
YANG Haiyan. Effect of heat radiation on thermal protection performance and durability of fire-fighting fabrics[D]. Shanghai: Donghua University, 2011: 77-80. | |
[27] | 杨璐, 许超, 张智力, 等. 拉曼光谱在检测饮用水中微塑料的应用[J]. 塑料科技, 2019,47(8):90-94. |
YANG Lu, XU Chao, ZHANG Zhizhi, et al. Application of Raman spectroscopy in the detection of microplastics in drinking water[J]. Plastics Science and Technology, 2019,47(8):90-94. | |
[28] | 张奇, 唐春雪, 丁克毅, 等. 胶原中氢键变化的红外光谱、拉曼光谱分析[J]. 中国皮革, 2020,49(1):16-21. |
ZHANG Qi, TANG Chunxue, DING Keyi, et al. Infrared spectroscopy of hydrogen bond changes in collagen[J]. China Leather, 2020,49(1):16-21. | |
[29] | 何欣龙, 王继芬, 于佳裔, 等. 基于判别分析的车用保险杠激光拉曼光谱鉴别研究[J]. 激光杂志, 2019,40(10):21-25. |
HE Xinlong, WANG Jifen, YU Jiayi, et al. Discrimination analysis of laser raman spectra of automobile bumpers[J]. Laser Magazine, 2019,40(10):21-25. | |
[30] | GALIOTIS C. Raman optomechanical studies on fibres, composites and fibre-matrix interfaces [C]//European Conference on Composite Materials, Proceedings (A90-40001 17-24). London: Elsevier Applied Science, 1989: 765-770. |
[31] | WASHER G, BROOKS T, SAULSBERRY R. Characterization of Kevlar using Raman spectro-scopy[J]. Journal of Materials in Civil Engineering, 2009,21(5):226-234. |
[32] |
LINDNER Chiara, WOLF Sebastian, KIESSLING Jens, et al. Fourier transform infrared spectroscopy with visible light[J]. Optics express, 2020,28(4):4426-4432.
doi: 10.1364/OE.382351 pmid: 32121679 |
[33] | NAZARE S, DAVIS R D, PENG J S, et al. Accelerated weathering of firefighter protective clothing: delineating the impact of thermal, moisture, and ultraviolet light exposures, National Institute of Standards and Technology [EB/OL].(2012-6). http://dx.doi.org/10.6028/NIST.TN.1746. |
[34] | 赖宣颖, 王春梅, 沈国土. NaCl单晶非切割面晶面的X射线衍射[J]. 物理实验, 2019,39(7):16-21. |
LAI Xuanying, WANG Chunmei, SHEN Guotu. X-ray diffraction of the non-cutting crystal surface of NaCl single crystal[J]. Physical Experiment, 2019,39(7):16-21. | |
[35] | ARRIETA C, DAVID E, DOLEZ P, et al. X-ray diffraction, Raman, and differential thermal analyses of the thermal aging of a Kevlar-PBI blend fabric[J]. Polymer Composites, 2011,32(3):362-367. |
[36] | ARRIETA Carlos, DAVID Eric, DOLEZ Patricia, et al. Thermal aging of a blend of high-performance fibers[J]. Journal of Applied Polymer Science, 2010,115(5):3031-3039. |
[37] | SLATER K. The progressive deterioration of textile materials, part I: characteristics of degradation[J]. Journal of The Textile Institute, 1986,77(2):76-87. |
[38] | DOLEZ Patricia, NAMRATA S Tomer, YASSINE Malajati. A quantitative method to compare the effect of thermal aging on the mechanical performance of fire protective fabrics[J]. Journal of Applied Polymer Science, 2019,136(6):1-15. |
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