Abstract
Embedded part has significant effects on the mechanical performance of tower crane braced frame joint. In this study, a series of experiments with different embedded part parameters are conducted on ultimate bearing capacity, load-displacement relationship, load-strain relationship, failure mode, and failure mechanism. Finite element models are established by the ABAQUS software and compared with the experiment results to verify rationality and credibility of the models. The present experimental study and finite element model analysis focus on the effects of anchor length, anchor width, and endplate area. The research results show that embedded part is pulled out of braced frame joint without plastic deformation, and local stress distribution of braced frame joint is complex with tension, bending, and shear load. The braced frame joint is severely strained and cracked with ultimate bearing capacity. Influence of embedded part parameters on mechanical performance of braced frame joint decreases in the order of anchor length, endplate area, and anchor width. The embedded part parameters have no influence on failure mode but affect the failure mechanism. Ultimate bearing capacity of embedded part is about four times the cracking bearing capacity, and an effective approach to improve ultimate bearing capacity is increasing anchor length. The research results can provide a better understanding of the sensitivity of mechanical and cracking behaviors of tower crane braced frame joint with different embedded part parameters.
Highlights
Tower crane safety affects many factors including worker safety, equipment and buildings in the surrounding, and facilities near the construction site even beyond the boundary of the construction site
Many works have been devoted to learning the safety factors of tower crane, the dynamic characteristics and dynamic response of tower crane with external excitation, selection and location of tower crane, and layout planning and management of tower crane
In previous research by the authors, it is found that embedded part has significant effects on the mechanical performance of tower crane braced frame joint [20, 21]. e tower crane braced frame joint sustains compound stress effect of the tension, flexural, and shear, showing a complex local stress distribution
Summary
Tower crane safety affects many factors including worker safety, equipment and buildings in the surrounding, and facilities near the construction site even beyond the boundary of the construction site. In previous research by the authors, it is found that embedded part has significant effects on the mechanical performance of tower crane braced frame joint [20, 21]. The effects of embedded part parameters of braced frame joint specimens on the mechanical and cracking behaviors are first investigated. En, five different anchor lengths of embedded part parameters in braced frame joint specimens are tested to study the influence of anchor length on mechanical performance. Five different endplate areas of embedded part parameters in braced frame joint specimens are tested to study the influence of endplate area on mechanical performance.
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