Prestressed stayed beam–columns under eccentric compression: Behaviour and prestress optimization

For prestressed stayed beam–columns, the structural behaviour and optimization method under eccentric compression are investigated numerically. The eccentric compression usually occurs when there exist installation errors, or when the member takes both the axial load and end moment. The indicators t...

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Bibliographic Details
Published in:Engineering structures 2022-04, Vol.256, p.113996, Article 113996
Main Authors: Wu, Kaidong, Xing, Zhe, Hu, Lili
Format: Article
Language:English
Subjects:
Axial loads
Beam-columns
Bearing strength
Carrying capacity
Compression
Compression zone
Configurations
Eccentric compression
Eccentricity
Failure modes
Finite element modelling
Load carrying capacity
Optimization
Prestressed stayed beam–columns
Prestressing
Steel structures
Structural optimization
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Summary:For prestressed stayed beam–columns, the structural behaviour and optimization method under eccentric compression are investigated numerically. The eccentric compression usually occurs when there exist installation errors, or when the member takes both the axial load and end moment. The indicators to quantify structural efficiency and failure mode are defined, and they together with load-carrying capacity of the stayed member with different structural configurations and prestress distributions are studied. The results reveal, for the first time, that when the short crossarm and eccentricity are located on the same side of the main member, the behaviour of the prestressed stayed beam–column under eccentric compression can be divided into small and large eccentricity zones owing to the different failure modes, such as compression dominant and bending dominant modes. Moreover, different optimization methods for the structural configuration and prestress distribution in the different zones are determined by striking a balance between maximizing load-carrying capacity and structural efficiency. This work would provide suggestions for the design of the prestressed stayed beam–columns under eccentric compression and the eccentric tolerance in installation. •Behaviour in mono-symmetric stayed beam–columns with eccentricity studied numerically.•Prestress distributions within cables optimized for the first time using self-defined indicators.•Large and small eccentricity zones distinguished by quantifying different ultimate failure modes.•Optimization methods in different eccentricity zones determined by parametric studies.•Practical recommendations for structural arrangement and prestress distribution provided.
ISSN:0141-0296
1873-7323
DOI:10.1016/j.engstruct.2022.113996