Song Yilong, Zhao Fang, Li Zhizun, Cheng Zhaogang . Research progress of insulation fiber material[J]. New Chemical Materials, 2021 , 49(4) : 62 -66 . DOI: 10.19817/j.cnki.issn1006-3536.2021.04.013

[1] Ghazi Wakili K,Binder B,Vonbank R.A simple method to determine the specific heat capacity of thermal insulations used in building construction[J].Energy & Buildings,2003,35(4):413-415.
[2] 吴海华,任超群,王俊,等.结构型隔热材料研究现状及发展趋势[J].化工新型材料,2020,48(1):6-9;14.
[3] 杨朝坤,华永明,花拓.隔热纤维材料的隔热机理及其应用[J].棉纺织技术,2011,39(5):62-65.
[4] Charles Kittle.固体物理导论[M].项金钟,吴兴慧,译.北京:化学工业出版社,2012.
[5] 张进,郝英立.高温隔热纤维结构材料绝热特性分析[J].能源研究与利用,2009(5):11-15.
[6] 杨世铭,陶文铨.传热学[M].北京:高等教育出版社,2006.
[7] Lu T J.Heat transfer efficiency of metal honeycombs[J].International Journal of Heat and Mass Transfer,1998,42(11):2031-2040.
[8] Eckert E R G.Analysis of heat and mass transfer[M].New York:McGraw-Hill,1972.
[9] 徐烈,方荣生,马庆芳,等.绝热技术[M].北京:国防工业出版社,1990.
[10] 何燕,张晓光,孟祥文.传热学[M].北京:化学工业出版社,2015.
[11] 王锋华,班燕.芳砜纶纤维性能及其在热防护领域的应用[C]//上海纺织(集团)有限公司.上海纺织(集团)有限公司科技创新大会论文集.上海:上海纺织协会,2012:4.
[12] 汪晓峰,张玉华.芳砜纶的性能及其应用[J].纺织导报,2005(1):18-20;22-23;78.
[13] 贾亚楠.消防服隔热层的产品设计及工艺性能研究[D].上海:东华大学,2016.
[14] 蒋莹莹,毛志平,徐红,等.芳砜纶的Mg(OH)₂包覆SiO₂改性及隔热阻燃性[J].印染,2016,42(22):1-7.
[15] 李盼盼,刘漪涛,秦蓉蓉,等.纤维混织梯度织物/酚醛树脂斜叠防热材料研究[J].玻璃钢/复合材料,2019(6):85-89.
[16] 徐士亮,王树明.掺杂改性Al₂O₃纤维隔热材料性能研究[J].稀有金属材料与工程,2015,44(S1):462-465.
[17] 任海涛,贾韬,刘家臣,等.具有三维网络结构的莫来石纤维多孔隔热材料的制备及性能研究[J].航空科学技术,2018,29(4):73-78.
[18] 崔帅,季文玲,崔燚,等.微乳液静电纺丝法制备多孔锆酸镧纤维[J].耐火材料,2019,53(3):201-203.
[19] 徐培珮,徐建峰,关克田.ZrO₂纤维隔热板的制备[J].耐火材料,2015,49(3):175-177.
[20] Dong Y,Wang C A,Zhou J,et al.A novel way to fabricate highly porous fibrous YSZ ceramics with improved thermal and mechanical properties[J].Journal of the European Ceramic Society,2012,32(10):2213-2218.
[21] 章婷,赵春林,乐弦,等.气凝胶研究进展[J].现代技术陶瓷,2018,39(1):1-39.
[22] 周小芳,王美月.气凝胶纳米材料研究进展[J].建筑技术,2017,48(10):1114-1117.
[23] 梁玉莹,吴会军,游秀华,等.纤维改善SiO₂气凝胶的力学和隔热性能研究进展[J].硅酸盐通报,2017,36(4):115-121.
[24] Zhao Shanyu,Olivier Emery,Anja Wohlhauser,et al.Merging flexibility with superinsulation:machinable,nanofibrous pullulan-silica aerogel composites[J].Materials & Design,2018,160:249-302.
[25] Li Lichun,Yalcin Baris,Nguyen Baochau N,et al.Flexible nanofiber-reinforced aerogel (xerogel) synthesis,manufacture,and characterization[J].ACS Applied Materials & Interfaces,2009,1(11):2491.
[26] Mohanapriya Venkataraman,Rajesh Mishra,Jiri Militky,et al.Electrospun nanofibrous membranes embedded with aerogel for advanced thermal and transport properties[J].Polymers for Advanced Technologies,2018,29(10):2583-2592.
[27] Liu He,Hu Mengyao,Jiao Junhua,et al.Geometric optimization of aerogel composites for high temperature thermal insulation applications[J].Journal of Non-Crystalline Solids,2020,547:120306.
[28] 吴文军,肖鹏,曾凡,等.隔热瓦/SiO₂气凝胶复合材料的制备与性能[J].宇航材料工艺,2019,49(5):35-38.
[29] 朱召贤,王飞,姚鸿俊,等.遮光剂掺杂Al₂O₃-SiO₂气凝胶/莫来石纤维毡复合材料的高温隔热性能研究[J].无机材料学报,2018,33(9):969-975.
[30] Li L,Zhang P,Liang J,et al.Phase transformation and morphological evolution of electrospun zirconia nanofibers during thermal annealing[J].Ceramics International,2010,36(2):589-594.
[31] Liu H A,Balkus K J.Electrospinning of beta silicon carbide nanofibers[J].Materials Letters,2009,63(27):2361-2364.
[32] Eick B M,Youngblood J P.SiC nanofibers by pyrolysis of electrospun preceramic polymers[J].Journal of Materials Science,2009,44(1):160-165.
[33] 董玉灿,史高峰,刘超,等.静电纺丝法制备碳纳米纤维的研究进展[J].广东化工,2017,44(23):74-76.
[34] Lukas Federer,Fabian Deuber,Sara Mousavi,et al.Amphiphilic nanofiber-based aerogels for selective liquid absorption from electrospun biopolymers[J].2017,4(12):1700065.
[35] Si Y,Wang X,Dou L,et al.Ultralight and fire-resistant ceramic nanofibrous aerogels with temperature-invariant superelasticity[J].Science Advances,2018,7(4):8925.
[36] Janny M A.Method for molding ceramic powders:US,4894194[P].1990-01-16.
[37] Hou Zhenguang,Du Haiyan,Liu Jiachen,et al.Fabrication and properties of mullite fiber matrix porous ceramics by a TBA-based gel-casting process[J].Journal of the European Ceramic Society,2013,33(4):717-725.
[38] Wu Z,Sun L,Pan J,et al.Fiber reinforced highly porous γ-Y₂Si₂O₇ ceramic fabricated by foam-gelcasting-freeze drying method[J].Scripta Materialia,2018,146:331-334.
[39] 黄锐镇,曹永强.消防员防护服隔热层新材料的研制工艺介绍[J].中国个体防护装备,2008(4):28-29.
[40] 曹永强,柳素燕.新型消防员隔热防护服外层面料结构及加工[J].中国个体防护装备,2011(1):9-10.
[41] 种晋,董树本,朱金城.高能长寿命热电池及其隔热材料发展概况[J].电源技术,2003(2):137-140.
[42] 段成丽.长寿命热电池的技术对策[J].电源技术,2012,36(8):1248-1249.
[43] 高庆福.纳米多孔SiO₂、Al₂O₃气凝胶及其高效隔热复合材料研究[D].长沙:国防科技大学,2009.
[44] 许景阳.加热炉炉体绝热设计与耐火纤维的应用[J].冶金能源,2001(5):38-41.
[45] 王秉铨.工业炉设计手册[M].第2版.北京:机械工业出版社,2000.
[46] 陈鸿复.冶金炉热工与构造[M].北京:冶金工业出版社,1996.
[47] 刘和义,崔宏亮,朱玉龙,等.氧化锆纤维制品的制备及其在高效节能电炉中的应用研究[J].真空电子技术,2015(4):15-20.
[48] 杨杰,隋学叶,刘瑞祥,等.航天飞机及高超飞行器用刚性隔热材料研究进展[J].现代技术陶瓷,2015,36(3):25-29.
[49] 王钦,胡子君,孙陈诚,等.陶瓷隔热瓦力学性能影响因素及其稳定性控制[J].宇航材料工艺,2010,40(2):77.