Simplification and further optimization of spatial cable-truss structure without inner ring cables
ISSN: 0264-4401
Article publication date: 29 March 2022
Issue publication date: 7 June 2022
Abstract
Purpose
In order to optimize SCSWIRC, the simplification and further optimization method is proposed. SCSWIRC's optimization includes two levels. The first level refers to simplifying structural system from the perspective of components; the second level refers to optimizing components' sectional areas from the perspective of mechanics. The first level aims to remove redundant components, and the second level aims to reduce structural self-weight based on the first level. The purpose of the paper is to simplify SCSWIRC's structural system and optimize structural self-weight and reduce construction forming difficulty.
Design/methodology/approach
Grid-jumping layout and multi-objective optimization method is used to simplify and further optimize Spatial cable-truss structure without inner ring cables (SCSWIRC). Grid-jumping layout is used to simplify remove redundant components, and multi-objective optimization method is used to reduce structural self-weight. The detailed solving process is given based on grid-jumping layout and multi-objective optimization method.
Findings
Take SCSWIRC with a span of 100m as an example to verify the feasibility and correctness of the simplification and further optimization method. The optimization results show that 12 redundant components are removed and the self-weight reduces by 3.128t from original scheme to grid-jumping layout scheme 1. The self-weight reduces from 36.007t to 28.231t and feasible coefficient decreases from 1.0 to 0.627 from grid-jumping layout scheme 1 to multi-objective optimization scheme. The simplification and further optimization can not only remove the redundant components and simplify structural system to reduce construction forming difficulty, but also optimize structural self-weight under considering structural stiffness to reduce project costs.
Originality/value
The proposed method firstly simplifies SCSWIRC and then optimizes the simplified SCSWIRC, which can solve the optimization problem from the perspective of components and mechanics. Meanwhile, the optimal section solving method can be used to obtain circular steel tube size with the optimal stiffness of the same areas. The proposed method successfully solves the problem of construction forming and project cost, which promotes the application of SCSWIRC in practical engineering.
Keywords
Acknowledgements
The authors would like to acknowledge the financial support of the National Natural Science Foundation of China (51778017), the National Natural Science Foundation of China (51878014).
Citation
Lu, J., Xue, S., Liu, R. and Li, X. (2022), "Simplification and further optimization of spatial cable-truss structure without inner ring cables", Engineering Computations, Vol. 39 No. 6, pp. 2231-2255. https://doi.org/10.1108/EC-06-2021-0319
Publisher
:Emerald Publishing Limited
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