摘要
研发了新型建筑外墙框架体系一体化系统,并研究不同砌筑粘结砂浆对系统界面粘结性能的影响,分析了系统功能性、耐久性及应用技术。结果表明,普通、薄层、保温砌筑粘结砂浆在硅墨烯改性聚苯保温板与蒸压加气混凝土砌块同时砌筑时的系统拉伸粘结强度,相比其与硅墨烯改性聚苯保温板的拉伸粘结度分别提高了128.6%、35.3%、100.0%。另一方面,使用薄层、保温砌筑粘结砂浆能够明显改善砌体的通缝抗剪强度和系统拉伸粘结强度等性能,进一步提高墙体系统的稳定性和抗开裂性。
This article develops a new integrated system of framing systems for building facades,and studies the influence of different masonry bonding mortars on the interface bonding performance of the system.The system's functionality,durability,and application technology are studied and analyzed.The results showed that the systematic tensile bonding strength of the three types of masonry bonding mortars in the simultaneous construction of silicone insulation board and autoclaved aerated concrete block increased by 128.6%,35.3%,and 100.0%compared to their tensile bonding degree with silicone insulation board,respectively.On the other hand,the use of thin layer masonry bonding mortar and insulation masonry bonding mortar can significantly improve the shear strength of masonry joints and the tensile bonding strength of the system,further improving the stability and crack resistance of the wall system.
作者
季良
王娟
董庆广
JI Liang;WANG Juan;DONG Qingguang(Shanghai Shengkui Plastic Industry Co.Ltd.,Shanghai 201500,China;Shanghai Institute of Building Science Co.Ltd.,Shanghai 201108,China)
出处
《新型建筑材料》
2024年第6期10-15,共6页
New Building Materials
基金
国家重点研发计划资助(2022YFC3801400)。
关键词
框架体系
一体化系统
砌筑粘结砂浆
力学性能
耐久性
frame system
integrated system
masonry bonding mortar
mechanical properties
durability
