Research on the Hysteresis Performance of Welded Hollow Spherical Joints under Low Temperature

2026-99-1641

To be published on 07/24/2026

Authors
Abstract
Content
The extreme cold environment has a significant impact on the mechanical properties of welded hollow ball nodes, which are crucial components in large-span steel structures. In this paper, based on the comprehensive test data of drum-shaped welded hollow sphere nodes from Beijing Daxing International Airport, a sophisticated finite element model incorporating welding residual stress is established. Through detailed static loading analysis and systematic hysteresis performance studies, the research thoroughly explores the influence mechanisms of low temperature on node bearing capacity, deformation capability, and energy dissipation performance. The investigation reveals that while the bearing capacity of the nodes increases significantly in low-temperature environments, both their plastic deformation capacity and energy consumption performance are notably reduced. These findings provide valuable theoretical references for the design and optimization of large-span mesh frame structures in cold regions, enabling engineers to better account for temperature effects in structural calculations and safety assessments. The results have important implications for improving the reliability and durability of steel structures in extreme cold environments.
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Citation
Luo, Y. and Jin, C., "Research on the Hysteresis Performance of Welded Hollow Spherical Joints under Low Temperature," 2025 International Conference on Solid Mechanics and Materials (ICSMM 2025), Hengyang, China, August 15, 2025, .
Additional Details
Publisher
Published
To be published on Jul 24, 2026
Product Code
2026-99-1641
Content Type
Technical Paper
Language
English