摘要
基于稻壳灰-纳米SiO2复合材料,本研究探索了其在室内墙面涂料中的应用,特别是针对甲醛吸附性能的提升。通过特定工艺制备的稻壳灰-纳米SiO2复合材料,展现出优异的甲醛吸附能力。实验结果显示,该复合材料能有效降低室内甲醛浓度,为创造更健康、安全的居住环境提供了新途径。本研究不仅丰富了室内空气净化材料的研究内容,也为稻壳灰的高值化利用开辟了新方向。
关键词: 稻壳灰;纳米SiO2;室内墙面涂料;甲醛吸附;复合材料
Abstract
Based on rice husk ash-nano SiO2 composite materials, this study explores their application in indoor wall coatings, particularly focusing on enhancing formaldehyde adsorption performance. The rice husk ash-nano SiO2 composite materials prepared through specific processes exhibit excellent formaldehyde adsorption capabilities. Experimental results show that these composite materials can effectively reduce indoor formaldehyde concentrations, providing a new approach to creating healthier and safer living environments. This research not only enriches the content of indoor air purification material studies but also opens up new directions for the high-value utilization of rice husk ash.
Key words: Rice husk ash; Nano SiO2; Indoor wall coating; Formaldehyde adsorption; Composite material
参考文献 References
[1] 刘娟,丁琳,陈伟.不同底材对建筑墙面涂料对比率检测的影响研究[J].四川化工,2025,28(02):27-29.
[2] 赵子玲,王丽娟.建筑涂料标准现状及对策分析[J].广东建材,2023,39(12):20-22+16.
[3] 徐峰.无机建筑涂料的应用与发展[J].上海涂料,2023, 61(06): 32-38.
[4] 王宇,张佳乐.《轻奢风格室内空间设计研究》[J].上海纺织科技,2023,51(10):108.
[5] 岳阳市:藏身物流中转站,384桶“定时炸弹”被紧急排除[J].湖南安全与防灾,2023,(10):63.
[6] 谭宗林,梁策.隧道墙面涂料反射率及涂设高度与路面光环境质量模拟试验研究[J].科学技术创新,2023,(21): 173-176.
[7] 张琳,郭争云,田冲,等.中国与欧盟室内装饰用涂料有害物质法规要求及比较[J].涂层与防护,2023,44(03):51-56.
[8] 李孝君,孙威.热致荧光技术显现涂料墙面上汗潜手印的实验研究[J].刑事技术,2023,48(05):489-497.