Long‐term performance of single‐lap joints: Review, challenges and prospects in civil engineering

Yue Shu, Xuhong Qiang, Xu Jiang, Yi Xiao, Hao Dong
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引用次数: 1

Abstract

Abstract Compared with traditional technology, bonding technology is more suitable for civil structure reinforcement because of its cost‐efficiency and superior mechanical properties. However, research on the long‐term performance of single‐lap joints (SLJs) requires better organization and comprehension. This article aims to investigate the long‐term performance and optimization design of SLJs. The main factors influencing the long‐term performance of SLJs from both material and component levels are discussed. The moisture diffusion mechanisms of bulk adhesives and the degradation mechanisms of SLJs are explored. Moreover, the optimization design of SLJs focuses on evaluating the overlap length, adhesive layer thicknesses, and changes in adhesives along the overlap length based on available literature. It is found that the applicability of diffusion models should be validated, and the selection of the models should consider working environments and types of adhesives. Exploring failure mechanisms and design criteria for the mixed SLJs in hygrothermal environments with/without sustained or alternating load is significant for the optimization design. This article indicates the limitations on the shear strength and long‐term performance of SLJs in available studies and provides insights into the challenges and prospects of their optimization design.
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单搭接节点的长期性能:土木工程的回顾、挑战与展望
摘要与传统的土木结构加固技术相比,粘接技术以其成本效益和优越的力学性能更适合于土木结构加固。然而,对单搭接接头(slj)长期性能的研究需要更好的组织和理解。本文旨在研究slj的长期性能和优化设计。从材料和元件两个层面讨论了影响slj长期性能的主要因素。探讨了块状胶粘剂的水分扩散机理和slj的降解机理。此外,基于现有文献,slj的优化设计侧重于评估重叠长度、胶粘剂层厚度以及胶粘剂沿重叠长度的变化。研究发现,扩散模型的适用性有待验证,模型的选择应考虑工作环境和胶粘剂类型。探索混合slj在有/无持续或交变载荷的湿热环境下的失效机理和设计准则对优化设计具有重要意义。本文指出了现有研究中slj抗剪强度和长期性能的局限性,并对其优化设计的挑战和前景提供了见解。
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