OVERALL FLOOR FLATNESS CONTROL TECHNOLOGY FOR ULTRA-LONG AND ULTRA-LARGE EXHIBITION HALLS
Download as PDFVolume 2, Issue 2, Pp 16-19, 2024
DOI: 10.61784/wjer3001
Author(s)
ZhiChao Zeng1,2, XiaoJu Zhang1,2,*, XuanZhong Luo1,2, ZhiYuan Zhang1,2, ZhenJie Tan1,2
Affiliation(s)
1China Construction Fourth Engineering Bureau Co., Ltd. Guangzhou, Guangdong 510000, China.
2China Construction Fourth Engineering Bureau Sixth Construction Co., Ltd. Hefei, Anhui 230000, China.
Corresponding Author
XiaoJu Zhang
ABSTRACT
With the continuous development of modern construction technology, the demand for the construction of super-long and super-large exhibition halls is increasing. The flatness of the exhibition hall floor directly affects the display effect and usage function. Therefore, higher requirements are put forward for the control technology of floor flatness. This paper studies the flatness control technology in the construction process of super-long and super-large exhibition hall floors, and studies a customized special adjustment bracket to fix the floor armor seam and cooperate with laser or optical level to accurately measure and control the floor flatness.
KEYWORDS
Super-long and super-large exhibition hall; Floor flatness; Control technology; Construction process
CITE THIS PAPER
ZhiChao Zeng, XiaoJu Zhang, XuanZhong Luo, ZhiYuan Zhang, ZhenJie Tan. Overall floor flatness control technology for ultra-long and ultra-large exhibition halls. World Journal of Engineering Research. 2024, 2(2): 16-19. DOI: 10.61784/wjer3001.
REFERENCES
[1] Nie Gengxiang. Construction quality control of large-area concrete wear-resistant floor engineering. Construction Technology Development, 2013(12):34-37.
[2] Xu Guoliang, Zhang Guangzhi, Wang Guolan. Exploration of new technology for controlling the elevation and flatness of large-area wear-resistant floor. Scientific Research, 2015(13):154.
[3] Gao Fangsheng, Yang Lin, You Lifeng, et al. New technology of skip-bin construction. Construction Technology, 2011, 42(5):431–435.
[4] Li Tiebing, Chen Xiyang, Wang Jun, et al. Construction of reinforced concrete structural slabs with high flatness requirements. Construction Technology, 2011, 42(9):823–826.