CONSTRUCTION TECHNOLOGY AND APPLICATION OF HEAVY-DUTY IMITATION STONE WOOD GRAIN CLEAR WATER CLADDING PANELS
Keywords:
Stone-look wood grain, Exposed concrete, Rapid installation, Fine-tuning, One-time moldingAbstract
With the diversification of architectural design, heavy-duty stone-look wood-grain exposed concrete cladding panels have been widely used in modern architecture due to their excellent aesthetics and structural performance. However, traditional cladding installation methods suffer from problems such as stress concentration at connection nodes, high installation accuracy requirements, high construction difficulty, and difficult post-construction maintenance when dealing with heavy-duty cladding panels. To address these issues, this paper proposes a rapid installation, fine-tuning, one-time molding construction method for heavy-duty stone-look wood-grain exposed concrete cladding panels. The technical principles, process flow, and application effects of this method in the second phase of the Grand Canal Museum in Beijing and Hangzhou are described in this journal. The results show that this method significantly improves the installation efficiency of the cladding panels, enhances structural stability, and effectively avoids tearing damage, demonstrating good application prospects and promotional value.References
[1] Chen Chen, Li Shuangquan, Xie Mowen, et al. A review of research on safety inspection methods for existing building curtain walls. Applied Laser, 2024, 44(06): 158-167.
[2] Xiong Zhenzhen, Wang Jianjun, Li Dongbin, et al. Current status and development trend of prefabricated lightweight exterior wall panel technology. Wall Material Innovation and Building Energy Conservation, 2019(11): 4-12.
[3] Li Yueliang. Research on preparation process of 3D printing casting template for imitation wood grain concrete. Building Technology Development, 2022, 49(13): 111-114.
[4] Jinping Chen, Jinchen Shao, Jing He, et al. Orthogonal Test for Mix Proportion of Fair-faced Concrete and its Quality Control. Fly Ash Comprehensive Utilization, 2020, 34(05): 72-76.
[5] Mintao Zhu, Qiang Zhou, Anbiao Zhu, et al. Research and Application of Production Technology on Specular Fair-faced Concrete Components. China Concrete Andcement Products, 2021, 01: 44-47.
[6] Honglei Chang, Penggang Wang, Zuquan Jin, et al. Durability and aesthetics of architectural concrete under chloride attack or carbonation. Materials, 2020, 13(4): 839.
[7] Kunpeng Gu, Fu Yu, Shoujie Ye, et al. Effect of admixture on appearance of high durable fair-faced concrete. Port & Waterway Engineering, 2018, 10: 63-67.
[8] Tingmin Mou, Qingjun Ding, Xiulin Huang, et al. Effects of slurry viscosity on appearance quality of fair - faced concrete. Concrete, 2015, 02: 104-106.