Application Research of Modern Technologies on Ancient Building Conservation
DOI:
https://doi.org/10.54097/hset.v28i.4875Keywords:
Conservation of ancient buildings, Modern anti-vibration technology, GFRP laminated rubber bearing, 3D laser scanning technology.Abstract
Ancient buildings are cultural heritage entities with considerable uniqueness and irreplaceability. The existed ancient buildings are also important sources for secondary art creation in modern times. However, with the development of urban underground transportation and the occurrence of some disasters, the preservation of existing ancient buildings has become a problem. This paper focuses on several modern techniques, i.e., the initial modeling of ancient buildings, the later repair of ancient buildings, and the GFRP laminated rubber bearing technology used in the process. The knowledge obtained and analyzed from existing studies are presented to demonstrate why new technologies such as 3D laser scanning technology and GFRP laminated rubber bearings can be used for the conservation of ancient buildings. The research results can be used for better protecting of ancient buildings.
Downloads
References
Cao Yanmei. Theoretical analysis and experimental study of train-induced free field and building vibration. Beijing: Beijing Jiaotong University, 2005: 5-7.
Hao Runxia, Duan Anqing. Analysis of seismic isolation performance of GFRP laminated rubber bearings. Journal of Inner Mongolia University of Science and Technology, 2022, 41(01): 76-80.
Sohu News Agency. Line taken China | new qashqai, unlock double-sided city of the ancient capital and the mountain city. May 26, 2019. Retrieved on May 26, 2019. Retrieved from: https:// www.sohu.com/a/316583617_99907385.
Zhang Xicheng. Dynamic Analysis of Wooden Structure Ancient Buildings under Earthquake Effects. Xi'an University of Architecture and Technology, 2013.
Shan Lan, Hong Shenghui, An Delong. Practical application of new technologies in ancient architecture conservation. Mapping and spatial geographic information, 2022, 45(02): 93-96.
Tao Lianjin, Li Zhuoyao, An Junhai, Wang Zhong. Research on the seismic isolation effect of stacked rubber bearings applied in subway station engineering. Highway, 2018, 63(07): 328-333.
Hao Runxia, Duan Anqing. Analysis of seismic isolation performance of GFRP laminated rubber bearing. Journal of Inner Mongolia University of Science and Technology, 2022, 41(01): 76-80.
Qin Huanzhao. Application of laminated rubber bearing in earthquake resistance. Journal of Taiyuan Normal College (Natural Science Edition), 2013, 12(01): 87-90.
Shi Shuangshen. Analysis of the dynamic characteristics of the quasi-temple sutra collection building under traffic vibration. Yangzhou University, 2016.
Ma Linlin, Xue Jianyang, Zhang Xicheng, Geng Shaobo. Seismic response analysis of wooden structures of ancient buildings considering mortise and tenon loosening. Journal of Vibration Engineering: 1-11.
Yang Weiguo, Wang Ya, Sun Xinyang, Wang Meng, Liu Pei. Effect of vertical stiffness degradation of laminated rubber bearing on seismic isolation structure. Journal of Harbin Institute of Technology, 2019, 51(06): 162-170.
Downloads
Published
Issue
Section
License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
