Abstract—Multi-function construction platforms (MCPs) as an "old construction technology, new application" of the building facade construction equipment, its efforts to reduce labor intensity, improve labor productivity, ensure construction safety, shorten the duration of construction and other aspects of the effect are significant. In this study, the functional analysis of the multi-function construction platforms is carried out in the construction of the assembly building. Based on the general finite element software ANSYS, the static calculation and dynamic characteristics analysis of the MCPs structure are analyzed, the simplified finite element model is constructed, and the selection of the unit, the processing and solution of boundary are under discussion and research. The maximum deformation value, the maximum stress value and the structural dynamic characteristic model are obtained. The dangerous parts of the platform structure are analyzed, too. Multiple types of MCPs under engineering construction conditions are calculated, so as to put forward the rationalization suggestions for engineering application of the MCPs.
Index Terms—Prefabricated concrete (PC), construction, multi-function construction platforms (MCPs), mechanics analysis, ANSYS, finite element method.
F. Rong Xu is with the Department of Building Engineering of Tongji University in China, China (e-mail: xurong@tongji.edu.cn).
S. Meihua Wang is with Shanghai Construction Group, Shanghai, China (e-mail: 874213786@qq.com).
T. Rongshuai Li is with the Shanghai Construction Group, Doctor of Technical Science, Engineer, China (e-mail: lrs0809@163.com).
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Cite: Rong Xu, Meihua Wang, Rongshuai Li, and Wenze Zhang, "Application and Mechanics Analysis of Multi-function Construction Platforms in Prefabricated," International Journal of Engineering and Technology vol. 10, no. 3, pp. 214-220, 2018.
