Performance evaluation of cable-stayed bridge expansion joints based on Lasso dimensionality reduction and temperature-displacement-correlation model

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-06 DOI:10.1177/13694332241237583
Tugang Xiao, Yu Hong, Jingye Xu, Qianhui Pu, Xuguang Wen
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Abstract

Expansion joints play a crucial role in accommodating the longitudinal movement of the main beam, which is mainly caused by temperature variation. This paper establishes an accurate model that relates the temperature field of the main beam to the displacement of the expansion joint, enabling reliable performance prediction and early warning of the expansion joint. Firstly, three commonly used methods for characterizing the temperature field of the main beam are introduced, along with their advantages and disadvantages. Secondly, a novel method is proposed using the Lasso algorithm to calculate critical temperatures. The objective is to select temperature channels data that have significant impact on the longitudinal displacement of the main beam. The selected channels data is then linearly weighted based on feature importance to obtain critical temperature. Based on this, a precise relationship model between the main beam temperature and the expansion joint displacement is derived through regression. For the residual term in the model fitting, an expansion joint performance early warning procedure is developed based on the X-bar control chart. Finally, using one-year long-term monitoring data from a newly constructed cable-stayed bridge as an example, the proposed method demonstrates superior capability in predicting the predefined damage of the expansion joint compared to the other two commonly used methods.
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基于拉索降维和温度-位移-相关模型的斜拉桥伸缩缝性能评估
伸缩缝在适应主梁纵向位移方面起着至关重要的作用,而主梁纵向位移主要是由温度变化引起的。本文建立了一个精确的模型,将主梁的温度场与伸缩缝的位移联系起来,从而对伸缩缝进行可靠的性能预测和预警。首先,介绍了三种常用的主梁温度场表征方法及其优缺点。其次,提出了一种使用 Lasso 算法计算临界温度的新方法。其目的是选择对主梁纵向位移有重大影响的温度通道数据。然后根据特征的重要性对所选通道数据进行线性加权,以获得临界温度。在此基础上,通过回归得出主梁温度与伸缩缝位移之间的精确关系模型。针对模型拟合中的残差项,根据 X 条控制图开发了膨胀节性能预警程序。最后,以一座新建斜拉桥为期一年的长期监测数据为例,与其他两种常用方法相比,所提出的方法在预测伸缩缝预定损坏方面表现出了卓越的能力。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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