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STABILITY AND UNLOADING CALCULATION ANALYSIS OF TEMPORARY SUPPORT FRAME OF RING-LAYERED HOLIER-WEB TRUSS

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Volume 2, Issue 2, Pp 33-38, 2024

DOI: 10.61784/msme3004

Author(s)

JiaLi Cao1,2, XunYin Liu1,2, BaoAn Zhang1,2*, JiangLong Meng1,2, ZhiYuan Zhang1,2, XiaoXia Zhao1,2

Affiliation(s)

1China Construction Fourth Engineering Bureau Co., Ltd. Guangzhou 510000, Guangdong, China.

2China Construction Fourth Engineering Bureau Sixth Construction Co., Ltd. Hefei 230000, Anhui, China.

Corresponding Author

BaoAn Zhang

ABSTRACT

This paper takes the Beijing-Hangzhou Grand Canal Museum project in China as the background, introduces the stress characteristics of the ring-layered holier-web truss of the project, and designs a temporary support frame structure based on its stress characteristics to ensure the safe construction of the project. Yingjianke software is used to verify the overall stability and floor shear bearing capacity of the temporary support frame, and the support frame during the construction process is subjected to stress analysis. In addition, the active control method is used for unloading to realize the conversion of the force system, and the stress and strain measurement points are arranged in the key sections to monitor the stress and strain in real time during the structure construction and unloading process. The construction method of this project can provide a technical reference for the construction of similar projects.

KEYWORDS

Annular laminated holier-web truss; Temporary support frame; Yingjianke software; Force analysis

CITE THIS PAPER

JiaLi Cao, XunYin Liu, BaoAn Zhang, JiangLong Meng, ZhiYuan Zhang, XiaoXia Zhao.  Stability and unloading calculation analysis of temporary support frame of ring-layered holier-web truss. Journal of Manufacturing Science and Mechanical Engineering. 2024, 2(2): 33-38. DOI: 10.61784/msme3004.

REFERENCES

[1] Luo Shunxin, Li Sixiang, Hu Feng, et al. Design analysis and monitoring of steel-steel composite conversion trusses with superimposed hollow trusses. Building Structures, 2024, 1-6.

[2] Chen Shunyun, Xiao Jianchun, Shen Ruilin, et al. Stiffness and economic analysis of double vertical bar hollow trusses. Journal of Shandong University of Technology (Natural Science Edition), 2024, 38(01): 14-21.

[3] Liang Tao, Shen Ruilin, Xiao Jianchun, et al. New double vertical bar hollow truss Research on beam and its equivalent stiffness method . Building Structure, 2024, 1-6.

[4] Huang Jin, Peng Bin, Wang Siqing, et al. Design of V-shaped column supported large-span laminated hollow truss structure. Building Structure, 2023, 53(15): 28-33.

[5] Zhang Biao, Xiong Zi, Wang Hai, et al. Analysis of construction technology points of double-layer H-shaped steel hollow truss beam based on BIM modeling. Xinjiang Iron and Steel, 2023, (02): 54-56.

[6] Sun Yongzhi, Li Yuying, Fu Chuanguo. Analysis of the influence of overall bending of large-span laminated pierced truss structure on cast-in-place concrete floor. Journal of Shandong Institute of Architecture and Engineering, 2004, (03): 1-3.

[7] Li Yuying, Liang Shuting, Sun Xiuli, et al. Research and analysis on the stress mechanism of pierced truss structure. Industrial Construction, 2006, (S1): 427-430+412.

[8] Wang Hongchang. Analysis and design of the interaction between column transfer beam and upper frame. Hunan University, 2012.

[9] Duan Yongfei, Liu Mingquan, Gao Yanliang. Static analysis of reinforced concrete single-span laminated pierced truss transfer structure. Building Science, 2008, (07): 1-4.

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