纺织学报 ›› 2020, Vol. 41 ›› Issue (03): 175-181.doi: 10.13475/j.fzxb.20181002007
李辉芹1,2(), 张楠1,2, 温晓丹1,2, 巩继贤1,2, 赵晓明1,2, 王支帅1,2
LI Huiqin1,2(), ZHANG Nan1,2, WEN Xiaodan1,2, GONG Jixian1,2, ZHAO Xiaoming1,2, WANG Zhishuai1,2
摘要:
为有效提高纤维材料降噪结构体的降噪性能,简述了近年来国内外纤维材料降噪结构体研究进展,依据纤维集合体的降噪机制,将纤维材料降噪结构体划分为多孔吸声复合降噪、多孔与共振复合降噪、多孔与阻尼复合降噪等类型。阐述了各种种纤维材料降噪结构体所用的纤维种类,介绍了各种类型纤维材料降噪结构体的构建方法,考察了各种类型纤维材料降噪结构体的结构组成,探讨了各种类型纤维材料降噪结构体的降噪效果,分析了不同类型纤维材料降噪结合体的作用机制,并对纤维材料在未来降噪领域的发展前景进行了展望,指出轻薄化、绿色化与多功能化是降噪功能纤维集合体的发展方向,为将来纤维材料在降噪领域的应用与发展提供了参考。
中图分类号:
[1] | 张京. 基于城市环境噪声污染与监测技术研究[J]. 环境与发展, 2019,31(8):139-140. |
ZHANG Jing. Research on noise pollution and monitoring technology based on urban environment[J]. Environment & Development, 2019,31(8):139-140. | |
[2] | 彭敏, 赵晓明. 汽车用吸声非织造材料的研究进展[J]. 成都纺织高等专科学校学报, 2017,34(1):230-235. |
PENG Min, ZHAO Xiaoming. Research progress of sound absorbing nonwovens for automobiles[J]. Journal of Chengdu Textile College, 2017,34(1):230-235. | |
[3] | 白媛, 钱晓明. 汽车降噪用非织造材料的应用及展望[J]. 产业用纺织品, 2011,29(5):8-11. |
BAI Yuan, QIAN Xiaoming. The applications and prospects of nonwovens for automotive noise reduc-tion[J]. Technical Textiles, 2011,29(5):8-11. | |
[4] | 郑红, 沈贤永, 林如勤, 等. 试论城市环境噪声污染控制对策[J]. 节能与环保, 2019(4):42-43. |
ZHENG Hong, SHEN Xianyong, LIN Ruqin, et al. On the control measures of urban environmental noise pollution[J]. Energy Conservation & Environmental Protection, 2019(4):42-43. | |
[5] | 李辉芹, 范晓丹, 张春春, 等. 纤维基柔性吸声降噪材料的研究现状与发展趋势[J]. 纺织导报, 2017(9):67-69. |
LI Huiqin, FAN Xiaodan, ZHANG Chunchun, et al. Research status and development trend of fiber-based flexible sound adsorption and noise reduction materials[J]. China Textile Leader, 2017(9):67-69. | |
[6] | 朱晓娜, 左保齐. 纺织品吸声隔音材料研究进展[J]. 现代丝绸科学与技术, 2010,25(2):34-37. |
ZHU Xiaona, ZUO Baoqi. Progress in research of textile sound absorption and sound insulation materials[J]. Modern Silk Science & Technology, 2010,25(2):34-37. | |
[7] | HAN M, REN S W, XIN F X, et al. Sound absorption coefficient optimization of gradient sintered metal fiber felts[J]. Science China Technological Sciences, 2016,59(5):699-708. |
[8] | 洪杰. 单孔中空涤纶增强橡胶基复合材料吸声性能[J]. 玻璃钢/复合材料, 2019,300(1):56-62. |
HONG Jie. Sound absorption properties of single-hole hollow polyester reinforced rubber composites[J]. Fiber Reinforced Plastics/Composites, 2019,300(1):56-62. | |
[9] | LIU Z, ZHAN J, FARD M, et al. Acoustic properties of multilayer sound absorbers with a 3D printed micro-perforated panel[J]. Applied Acoustics, 2017,121:25-32. |
[10] | GAI X L, XING T, LI X H, et al. Sound absorption properties of microperforated panel with membrane cell and mass blocks composite structure[J]. Applied Acoustics, 2018,137:98-107. |
[11] | HASINA M, HOSSEINI F M, MUSHTAK A A, et al. Acoustic absorption of natural fiber composites[J]. Journal of Engineering, 2016(7):1-11. |
[12] | SAGARTZAZU X, HERVELLA-NIETO L, PAGALDAY J M. Review in sound absorbing materials[J]. Archives of Computational Methods in Engineering, 2008,15(3):311-342. |
[13] | 彭敏, 赵晓明. 纺织材料的吸声隔声机理及研究进展[J]. 成都纺织高等专科学校学报, 2016,33(4):173-177. |
PENG Min, ZHAO Xiaoming. Sound absorption and sound insulation mechanism and research progress of textile materials[J]. Journal of Chengdu Textile College, 2016,33(4):173-177. | |
[14] | TANG X, YAN X. Multi-layer fibrous structures for noise reduction[J]. Journal of The Textile Institute, 2017,108(12):2096-2106. |
[15] | 李想, 陈金静, 张一风. 涤纶机织物降噪音性能的研究[J]. 纺织导报, 2013(10):74-78. |
LI Xiang, CHEN Jinjing, ZHANG Yifeng. A study on the noise-reduction property of polyester woven fabric[J]. China Textile Leader, 2013(10):74-78. | |
[16] | 范晓丹. 机织物结构与吸声隔音性能关系研究[D]. 天津:天津工业大学, 2018: 41-52. |
FAN Xiaodan. Study on relationship between fabric structure and noise reduction performance[D]. Tianjin: Tianjin Polytechnic University, 2018: 41-52. | |
[17] | CHEN Y, JIANG N. Carbonized and activated non-woven as high performance acoustic materials. II. noise insulation[J]. Textile Research Journal, 2009,79(3):213-218. |
[18] | 王飞艳, 刘其霞, 季涛, 等. 水泥基复合结构吸声材料的制备及表征[J]. 南通大学学报(自然科学版), 2014,13(3):37-42. |
WANG Feiyan, LIU Qixia, JI Tao, et al. Preparation and characterization of cement-based combined sound absorption material[J]. Journal of Nantong University (Natural Science Edition), 2014,13(3):37-42. | |
[19] | LIU J, BAO W, SHI L, et al. General regression neural network for prediction of sound absorption coefficients of sandwich structure nonwoven absorbers[J]. Applied Acoustics, 2014,76(1):128-137. |
[20] | 王双闪, 刘建立, 刘健, 等. 非织造材料基三明治结构吸声体的吸声性能[J]. 上海纺织科技, 2013(12):56-60. |
WANG Shuangshan, LIU Jianli, LIU Jian, et al. Sound absorption property study of sandwich sound absorber made of non-woven material[J]. Shanghai Textile Science & Technology, 2013(12):56-60. | |
[21] | LIN J H, LI T T, HSU Y H, et al. Preparation and property evaluation of sound-absorbing/ thermal-insulating PU composite boards with cushion protec-tion[J]. Fibers & Polymers, 2014,15(7):1478-1483. |
[22] | ELIKEL D C, BABAARSLAN O. Effect of bicomponent fibers on sound absorption properties of multilayer nonwovens[J]. Journal of Engineered Fibers & Fabrics, 2017,12(4):15-25. |
[23] | 汤慧萍, 朱纪磊, 葛渊, 等. 纤维多孔材料梯度结构的吸声性能研究[J]. 稀有金属材料与工程, 2007,36(12):2220-2223. |
TANG Huiping, ZHU Jilei, GE Yuan, et al. Sound absorbing characteristics of fibrous porous materials gradient structure[J]. Rare Metal Materials and Engineering, 2007,36(12):2220-2223. | |
[24] | TANG X, YAN X. Acoustic energy absorption properties of fibrous materials: a review[J]. Composites: Part A: Applied Science & Manufacturing, 2017,101:360-380. |
[25] | ZHU J, SUN J, TANG H P, et al. Gradient-structural optimization of metal fiber porous materials for sound absorption[J]. Powder Technology, 2016,301:1235-1241. |
[26] | 敖庆波, 王建忠, 李爱君, 等. 梯度纤维多孔材料的吸声特性及结构优化[J]. 稀有金属材料与工程, 2018,47(2):697-700. |
AO Qingbo, WANG Jianzhong, LI Aijun, et al. Sound absorption characteristics and structure optimization of gradient fibrous porous materials[J]. Rare Metal Materials and Engineering, 2018,47(2):697-700. | |
[27] | SUN F, CHEN H, WU J, et al. Sound absorbing characteristics of fibrous metal materials at high temperatures[J]. Applied Acoustics, 2010,71(3):221-235. |
[28] | 张波, 陈天宁. 烧结金属纤维材料的吸声模型研究[J]. 西安交通大学学报, 2008,42(3):328-332. |
ZHANG Bo, CHEN Tianning. Sound absorption model of sintered fibrous metal[J]. Journal of Xi'an Jiaotong University, 2008,42(3):328-332. | |
[29] | 吕丽华, 毕吉红, 于翔. 废弃纤维吸声复合材料的制备及其吸声性能[J]. 纺织学报, 2016,37(2):39-43. |
LU Lihua, BI Jihong, YU Xiang. Fabrication and sound absorption properties of waste fiber composite materials[J]. Journal of Textile Research, 2016,37(2):39-43. | |
[30] | 田一, 陈建胜, 刘主光, 等. 微孔纤维复合吸声板在城市变电站降噪中的应用[J]. 智能电网, 2016,4(10):988-992. |
TIAN Yi, CHEN Jiansheng, LIU Zhuguang, et al. Application of microporous fiber composite acoustic board in the noise control engineering of urban substations[J]. Smart Grid, 2016,4(10):988-992. | |
[31] | 祝志祥, 林冶, 聂景凯, 等. 变电站(换流站)低频噪声吸声材料的研究[J]. 华东电力, 2011,39(3):357-361. |
ZHU Zhixiang, LIN Ye, NIE Jingkai, et al. Study on low-frequency sound-absorbing materials for substations (converter stations)[J]. East China Electric Power, 2011,39(3):357-361. | |
[32] | LEE Y Y, LEE E W M, NG C F. Sound absorption of a finite flexible micro-perforated panel backed by an air cavity[J]. Journal of Sound & Vibration, 2005,287(1):227-243. |
[33] | FAN C, NIE J K, XIAO W M, et al. Research on sound-absorption materials for substation noise reduc-tion[J]. Electric Power, 2014,47(4):144-147. |
[34] | FATIMA S, MOHANTY A R. Acoustical and fire-retardant properties of jute composite materials[J]. Applied Acoustics, 2011,72(2):108-114. |
[35] | BANSOD P V, TEJA T S, MOHANTY A R. Improvement of the sound absorption performance of jute felt-based sound absorbers using micro-perforated panels[J]. Journal of Low Frequency Noise Vibration & Active Control, 2017,36(4):376-398. |
[36] | 裴春明, 周兵, 李登科, 等. 多孔材料和微穿孔板复合吸声结构研究[J]. 噪声与振动控制, 2015,35(5):35-38. |
PEI Chunming, ZHOU Bing, LI Dengke, et al. Study on the composite sound absorber made up of porous materials and MPP[J]. Noise and Vibration control, 2015,35(5):35-38. | |
[37] | 张春春, 巩继贤, 范晓丹, 等. 柔性吸声隔音降噪纺织复合材料[J]. 复合材料学报, 2018,35(8):1983-1993. |
ZHANG Chunchun, GONG Jixian, FAN Xiaodan, et al. Sound-absorbing and sound insulation soft composite materials of textile for noise reduction[J]. Acta Materiae Compositae Sinica, 2018,35(8):1983-1993. | |
[38] | 张隶新, 穆晓军. 高铁车轮阻尼环减振降噪实验研究[J]. 制造业自动化, 2016,38(2):135-137. |
ZHANG Lixin, MU Xiaojun. Experiment of vibration and acoustic of damping ring installed on high-speed rail wheel[J]. Manufacturing Automation, 2016,38(2):135-137. | |
[39] | 王明旭, 穆钟涛, 曹宪周, 等. 阻尼减振技术在非织造布用针刺机中的应用[J]. 纺织导报, 2013(7):96-98. |
WANG Mingxu, MU Zhongtao, CAO Xianzhou, et al. Damping technology used in nonwoven needle loom[J]. China Textile Leader, 2013(7):96-98. | |
[40] | 姚跃飞, 高磊, 杨琼丽, 等. 漂珠填充聚氯乙烯基复合材料的隔声性能[J]. 高分子材料科学与工程, 2009,25(11):61-64. |
YAO Yuefei, GAO Lei, YANG Qiongli, et al. Sound insulation property of PVC matrix composite material filled with cenosphere fly ash[J]. Polymer Materials Science and Engineering, 2009,25(11):61-64. | |
[41] | HAWORTH B, CHADWICK D, CHEN L, et al. Thermoplastic composite beam structures from mixtures of recycled HDPE and rubber crumb for acoustic energy absorption[J]. Journal of Thermoplastic Composite Materials, 2016,31(1):119-142. |
[42] | YAN J, KIM M S, KANG K M, et al. Evaluation of PP/clay composites as soundproofing material[J]. Polymers & Polymer Composites, 2014,22(1):65-72. |
[43] | KIM M S, YAN J, KANG K M, et al. Soundproofing properties of polypropylene/clay/carbon nanotube nanocomposites[J]. Journal of Applied Polymer Science, 2013,130(1):504-509. |
[44] | MAMTAZ H, FOULADI M H, NUAWI M Z, et al. Acoustic absorption of fibro-granular composite with cylindrical grains[J]. Applied Acoustics, 2017,126:58-67. |
[45] | 潘涵, 姚跃飞, 刘慧, 等. 玻璃纤维织物/PVC基复合材料的层合结构隔声性能[J]. 浙江理工大学学报, 2012,29(3):319-323. |
PAN Han, YAO Yuefei, LIU Hui, et al. Sound insulation property of glass fabric/PVC composite materials' laminated structure[J]. Journal of Zhejiang Sci-Tech University, 2012,29(3):319-323. | |
[46] | ZHOU X, JANG S, YAN X, et al. Damping acoustic properties of reclaimed rubber/seven-hole hollow polyester fibers composite materials[J]. Journal of Composite Materials, 2014,48(30):3719-3726. |
[1] | 王赫, 王洪杰, 阮芳涛, 凤权. 静电纺聚丙烯腈/线性酚醛树脂碳纳米纤维电极的制备及其性能[J]. 纺织学报, 2021, 42(01): 22-29. |
[2] | 马君志, 葛红, 王冬, 付少海. 溶胶-凝胶法改性阻燃粘胶纤维的制备及其性能[J]. 纺织学报, 2021, 42(01): 10-15. |
[3] | 杨刚, 李海迪, 乔燕莎, 李彦, 王璐, 何红兵. 聚乳酸-己内酯/纤维蛋白原纳米纤维基补片的制备与表征[J]. 纺织学报, 2021, 42(01): 40-45. |
[4] | 宋星, 金肖克, 祝成炎, 蔡冯杰, 田伟. 玻璃纤维/光敏树脂复合材料的3D打印及其力学性能[J]. 纺织学报, 2021, 42(01): 73-77. |
[5] | 周其洪, 孙宝通, 岑均豪, 占齐宸. 采用激光扫描建模的筒子纱卷绕密度测量方法[J]. 纺织学报, 2021, 42(01): 96-102. |
[6] | 杨宇晨, 覃小红, 俞建勇. 静电纺纳米纤维功能性纱线的研究进展[J]. 纺织学报, 2021, 42(01): 1-9. |
[7] | 王霁龙, 刘岩, 景媛媛, 许庆丽, 钱祥宇, 张义红, 张坤. 纤维基可穿戴电子设备的研究进展[J]. 纺织学报, 2020, 41(12): 157-165. |
[8] | 刘淑强, 武捷, 吴改红, 阴晓龙, 李甫, 张曼. 纳米SiO2 对玄武岩纤维的表面改性[J]. 纺织学报, 2020, 41(12): 37-41. |
[9] | 黎俊妤 蒋培清 张文奇 李文斌. 原子层沉积技术对纤维素膜功能化的影响[J]. 纺织学报, 2020, 41(12): 26-30. |
[10] | 孟晶, 高珊, 卢业虎. 石墨烯气凝胶复合防火面料防护性能的影响因素[J]. 纺织学报, 2020, 41(11): 116-121. |
[11] | 孙倩, 阚燕, 李晓强, 高德康. 聚丙烯腈/氯化钴纳米纤维比色湿度传感器的制备及其性能[J]. 纺织学报, 2020, 41(11): 27-33. |
[12] | 王利媛, 康卫民, 庄旭品, 鞠敬鸽, 程博闻. 磺化聚醚砜纳米纤维复合质子交换膜的制备及其性能[J]. 纺织学报, 2020, 41(11): 19-26. |
[13] | 马跃, 郭静, 殷聚辉, 赵秒, 宫玉梅. 纤维素/氧化纤维素/南极磷虾蛋白复合抗菌纤维的制备与表征[J]. 纺织学报, 2020, 41(11): 34-40. |
[14] | 刘芳, 马颜雪, 陈小光, 刘书惠, 张益榛, 任志鹏, 李康琪, 童艺翾, 任泺彤, 李毓陵. 苎麻纤维厌氧生物脱胶系统工艺性能研究[J]. 纺织学报, 2020, 41(11): 89-94. |
[15] | 屈永帅, 施朝禾, 张瑞云, 赵树元, 刘柳. 蒽醌助剂对乙二醇溶剂脱胶苎麻纤维性能的影响[J]. 纺织学报, 2020, 41(11): 81-88. |
|