期刊
BUILDINGS
卷 13, 期 3, 页码 -出版社
MDPI
DOI: 10.3390/buildings13030780
关键词
composite girder; temperature gradient; air temperature; solar radiation; parametric analysis
This article investigates an experimental steel I-girder section encased in concrete and its instrumentation to analyze temperature distributions in concrete bridges. The study aims to examine the effect of varying air temperatures and thermal loads from solar radiation. Structural health monitoring sensors, including temperature sensors, were connected to the girder to constantly monitor structural performance. The experimental data collection occurred during an exceptionally cold season, and the results revealed the lateral and vertical distribution of thermal gradients, as well as the fluctuations over time. Empirical equations were suggested based on accumulated thermal data to forecast peak lateral and vertical temperature gradients according to the girder's highest daily and lowest mean temperatures. This temperature variation may cause longitudinal expansion and contraction in the structure during seasonal variations.
This article delves into an investigation of an experimental steel I-girder section encased in concrete and its instrumentation for the purpose of analyzing temperature distributions in concrete bridges. The study aims to examine the effect of differing air temperatures and thermal loads resulting from solar radiation. Structural health monitoring sensors, including a range of temperature sensors, were connected with the girder to monitor the structural performance using the data acquisition system constantly. The collection of experimental data took place during an exceptionally cold season, and the results of the study revealed both the lateral and vertical distribution of thermal gradients, as well as the fluctuations in these gradients over time. On the premise of the accumulated thermal data, empirical equations were suggested in order to forecast peak lateral as well as vertical temperature gradients, in accordance with the girder's highest daily and lowest mean temperatures. This temperature variation may lead to longitudinal expansion and contraction in the structure during seasonal variations.
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