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全文详见中国知网:http://www.cnki.net/
注释与参考文献:
[1]廖云丹.纤维增强sio2气凝胶隔热复合材料的可控制备及性能优化研究[D].广州大学硕士论文.2012(5).
[2]杨丽修.气凝胶超级绝热材料的快速制备及其建筑节能应用研究[D].广州大学硕士论文.2013(5).
[3]赵海波.浅析气凝胶材料在建筑节能领域的应用与发展[J].墙材革新与建筑节能, 2018(2).
[4]百度360百科.气凝胶.[EB/OL].https://baike.so.com/doc/5515001-5748534.html.
[5]DB33/T1118-2015.纳米二氧化硅保温毡应用技术规程[S].浙江省工程建设标准.
[6]纳诺高科股份有限公司.纳诺高科气凝胶产品施工手册[EB/OL].http://www.nanuo.cn/index.php/Index/show/tid/71.
[7]杨长甫.浅谈无机保温纤维喷涂施工.[J].建设科技,2011(8).
[8]李杰.供暖建筑热稳定性的评价模型及能效研究.[D].大连理工大学硕士论文.2018(6).
Practical Analyses of Nano Aerogel Being the Thermal Insulation Material of Archival Repository
Zhang Jianming
Abstract: The energy-consumption problem of air conditioners in archival repository has been the topic for discussion as archival repository needing keeping constant temperature and humidity.This paper has had a study on physical and chemical properties and preparation method of silica aerogel, and believes the envelop enclosure of archival repository could be reconstructed by aerogel.With monitoring analysis and evaluation, the paper draws a conclusion that nano aerogel could be applied in archival repository to keep constant temperature and humidity.
Keywords: Nano Aerogel; Archival Repository; Thermal Insulation; Energy-Saving And Cost-Reducing
