Optimal design for the connector of bridge prefabricated concrete barriers

Optimal design for the connector of bridge prefabricated concrete barriers

The current optimization research on the connectors of prefabricated barriers uses experimental comparisons only and lacks theoretically based optimization methods as guidance. The primary objective of this study was to propose an efficient optimization approach to the connector design of prefabrica...

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Bibliographic Details
Published in:Science progress (1916) Vol. 104; no. 3; p. 368504211036386
Main Authors: Yu, Xiaolin, Huang, Yifeng, Yang, Yong, Chen, Yuxuan, Luo, Yufan, Jia, Buyu
Format: Journal Article
Language:English
Published: London, England SAGE Publications 01-07-2021
Sage Publications Ltd
Subjects:
Algorithms
Bridge design
Cellular automata
Connectors
Design
Design optimization
Finite element method
Genetic algorithms
Impact loads
Mathematical models
Metamodels
Optimization
Prefabricated buildings
Topology
Topology optimization
Traffic accidents
Bridge barriers
topology optimization
kriging metamodel
connector
prefabricated barriers
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Summary:The current optimization research on the connectors of prefabricated barriers uses experimental comparisons only and lacks theoretically based optimization methods as guidance. The primary objective of this study was to propose an efficient optimization approach to the connector design of prefabricated bridge barriers. This paper presents an efficient two-stage optimization approach to the connector design of prefabricated bridge barriers. In the first stage, the hybrid cellular automaton algorithm is used to perform dynamic topology optimization on the connector, and the best material distribution in the design domain is obtained. In the second stage, a kriging metamodel and genetic algorithm are combined to further optimize the size of the connector structure. With a prefabricated bridge as the engineering background, finite element models of a barrier system under impact load caused by a car crash were established. The above approach is utilized to optimize the design of the barrier connector. Results showed that the optimized connector structure greatly improved the overall performance of the barrier system while reducing the material consumption and costs. The proposed optimization approach can determine the optimal material distribution and size of the connector structure, thus providing guiding significance for the design and construction of connectors of prefabricated components.
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ISSN:0036-8504
2047-7163
DOI:10.1177/00368504211036386