[1] 华伊凡.世界玻璃棉产业的现状和发展趋势[J].中国建材,2005(11):48-51.
[2] 邹瑜,郎四维,徐伟,等.中国建筑节能标准发展历程及展望[J].建筑科学,2016,32(12):1-5,12.
[3] 张轶.中外建筑节能情况对比[J].节能与环保,2005(4):12-14.
[4] 陈凡,谭大璐.节能建筑外墙最佳保温层厚度探讨及效益评估[J].新型建筑材料,2007,311(2):48-50.
[5] 陈飞旭.铁尾矿/粉煤灰/EPS颗粒/气凝胶复合保温材料研究[D].北京:中国地质大学,2019.
[6] 张原僖.二氧化硅气凝胶纤维复合保温板简析[J].墙材革新与建筑节能,2015(2):49-50.
[7] 李丽国,王宇欣.SiO2气凝胶保温隔热材料在设施农业中的应用[J].农业工程,2014,4(1):41-44.
[8] 姜小青.二氧化硅气凝胶的研究进展[J].精细与专用化学品,2020,28(9):42-46.
[9] 邓蔚,钱立军.纳米孔硅质绝热材料[J].宇航材料工艺,2002(1):1-7.
[10] 崔勇,王栋民,张江涛,等.SiO2气凝胶隔热材料的研究现状及在建筑中的应用[C]//中国硅酸盐学会固废分会.第一届固废处理与生态环境材料学术交流会论文集.北京:中国硅酸盐学会固废分会,2015:122-128.
[11] 封金财,孙浩,朱平华,等.气凝胶砂浆及其复合混凝土研究[J].常州大学学报(自然科学版),2020,32(1):70-78.
[12] KIM S,SEO J,CHA J,et al.Chemical Retreating for Gel-typed Aerogel and Insulation Performance of Cement Containing Aerogel[J].Construction and Building Materials,2013,40:501-505.
[13] GAO T,JELLE B P,GUSTAVSEN A,et al.Aerogel-incorporated Concrete: An Experimental Study[J].Construction and Building Materials,2014,52:130-136.
[14] 路珏,蒋俊,卢忠远,等.气凝胶-水泥复合多孔材料的孔结构与硬化性能[J].混凝土与水泥制品,2020(9):11-15.
[15] 张明灿.二氧化硅气凝胶制备建筑保温隔热材料[J].中国建材科技,2012,21(5):31-34.
[16] 宣玉杰,刘洪丽,安国庆,等.HNTs/SiO2粘土复合气凝胶保温砂浆的制备及性能研究[J].硅酸盐通报,2019,38(9):2782-2787.
[17] 彭罗文,艾明星,石永,等.影响二氧化硅气凝胶/玻化微珠保温砂浆性能的因素[J].新型建筑材料,2018,45(7):64-67.
[18] 王修贵,程功,张文静.气凝胶保温砂浆导热影响因素及建筑能耗研究[J].混凝土与水泥制品,2019,284(12):70-73.
[19] NG S,JELLE B P,STHLI T.Calcined Clays as Binder for Thermal Insulating and Structural Aerogel Incorporated Mortar[J].Cement and Concrete Composites,2016,72:213-221.
[20] 王飞,刘朝辉,邓智平,等.不同体积掺量的SiO2气凝胶对砂浆性能的影响[J].功能材料,2016,47(4):4064-4069.
[21] 李安宁,沈志明,张新生,等.气凝胶掺杂玻化微珠砂浆性能的研究[J].安徽化工,2019,45(3):67-70.
[22] 封金财,李涛,刘文影.骨料掺量对硅气凝胶砂浆性能的实验研究[J].常州大学学报(自然科学版),2019,31(2):88-92.
[23] STEFANIDOU M,PACHTA V.Influence of Perlite and Aerogel Addition on the Performance of Cement-based Mortars at Elevated Temperatures[J].Iop Conference Series Earth and Environmental Science,2020,410:012111.
[24] JAMSHID R,OMID K,REZA S,et al.Enhanced Workability, Durability, and Thermal Properties of Cement-based Compositeswith Aerogel and Paraffin Coated Recycled Aggregates[J].Journal of Cleaner Production,2021,297:126518.
[25] 付平,吴会军,李朋威.气凝胶含量对泡沫混凝土孔结构及性能的影响[J].新型建筑材料,2018,45(5):125-130.
[26] 李朋威,吴会军,杨建明,等.轻质低导热气凝胶泡沫混凝土的制备与性能实验研究[J].硅酸盐通报,2018,37(8):2555-2561.
[27] YOON H S,LIM T K,JEONG S M,et al.Thermal Transfer and Moisture Resistances of Nano-aerogel-embedded Foam Concrete[J].Construction and Building Materials,2020,236(6):117575.
[28] 刘振宇,吴会军,刘彦辰,等.气凝胶密度对超轻泡沫混凝土性能的影响[J].硅酸盐通报,2020,39(5):1466-1472.
[29] 付平,植可炜,黄茶,等.纤维/气凝胶泡沫混凝土的制备与性能研究[J].硅酸盐通报,2019,38(9):2701-2706.
[30] 刘朋,龚延风,田国华,等.轻质气凝胶泡沫混凝土配合比试验研究[J].新型建筑材料,2020,47(10):132-135,168.
[31] PENG L,YAN F G,GUO H T,et al.Preparation and Experimental Study on the Thermal Characteristics of Lightweight Prefabricated Nano-silica Aerogel Foam Concrete Wallboards[J].Construction and Building Materials,2021,272:121895.
[32] SHAH S N,MO K H,YAP S P,et al.Effect of Micro-sized Silica Aerogel on the Properties of Lightweight Cement Composite[J].Construction and Building Materials,2021,290(9):123229.
[33] ZENG Q,MAO T,LI H,et al.Thermally Insulating Lightweight Cement-based Composites Incorporating Glass Beads and Nano-silica Aerogels for Sustainably Energy-saving Buildings[J].Energy and Buildings,2018,174:97-110.
[34] ADHIKARY S K,RUDIONIS Y,VAIIUKYNIEN-PALUBINSKAIT D.Development of Flowable Ultra-lightweight Concrete Using Expanded Glass Aggregate, Silica Aerogel, and Prefabricated Plastic Bubbles[J].Journal of Building Engineering,2020(31):101399.
[35] FICKLER S,MILOW B,RATKE L,et al.Development of High Performance Aerogel Concrete[J].Energy Procedia,2015, 78:406-411.
[36] WANG L,LIU P,JING Q,et al.Strength Properties and Thermal Conductivity of Concrete with the Addition of Expanded Perlite Filled with Aerogel[J].Construction and Building Materials,2018,188:747-757.
[37] MA G,RUHAN A,XIE P.3D-printable Aerogel-incorporated Concrete: Anisotropy Influence on Physical, Mechanical, and Thermal Insulation Properties[J].Construction and Building Materials,2022,323:126551.
[38] 刘婧,王贯明,成铠,等.利用可溶性气凝胶膏对玻化微珠保温砂浆配比的优化设计[J].市政技术,2017,35(6):176-178.
[39] 李振华.SiO2气凝胶在混凝土中的稳定、分散与保温作用研究[J].水泥技术,2019,207(3):95-99.