Coupled Analysis of Thermofluid-Structure Field for Thermal Properties of Early-Age Concrete Influenced by Electric Heating System

Liu, Lin; Zhao, Yue; Han, Jiqing; Cheng, Cheng; Zhang, Chaozhe

doi:10.1155/2022/3341741

Geofluids

2022

DOI: 10.1155/2022/3341741

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Coupled Analysis of Thermofluid-Structure Field for Thermal Properties of Early-Age Concrete Influenced by Electric Heating System

Lin Liu

Yue Zhao

Jiqing Han

et al.

Abstract: When heat energy is transferred to concrete through energy conversion by an electric heating system, the overall thermal performance of the early-age concrete is affected by the local high temperature of the concrete. This, in turn, affects the accuracy of the prediction and calculation of concrete deformation. Concrete thermal physical parameter models considering the mutual influence of heat and humidity were established to clarify the influence of an electric heat tracing system on the heat transfer perform… Show more

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Influence of temperature and humidity coupling on rutting deformation of asphalt pavement

Zhang,

Wang,

Yang

et al. 2023

Science and Engineering of Composite Materials

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In this article, ABAQUS finite-element software is used to establish an asphalt pavement structure model under high-temperature environment in summer. The changes in the temperature field and moisture concentration field of asphalt pavement are studied under the condition of 1-day continuous temperature change. The creep model is used to analyse the influence of ambient temperature and humidity on the rutting deformation of asphalt pavement. The results show that the maximum temperature of asphalt pavement can reach 60°C in the high-temperature environment in summer. The temperature accumulation effect causes the temperature of the middle and lower layers to increase by approximately 10°C, which easily induces rutting. Ambient humidity has a great influence on the change in moisture concentration in the upper layer. Considering the influence of ambient humidity in the high-temperature environment, the rut depth increases by 67%.

show abstract

Influence of temperature and humidity coupling on rutting deformation of asphalt pavement

Zhang,

Wang,

Yang

et al. 2023

Science and Engineering of Composite Materials

View full text Add to dashboard Cite

show abstract

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Coupled Analysis of Thermofluid-Structure Field for Thermal Properties of Early-Age Concrete Influenced by Electric Heating System

Cited by 1 publication

References 23 publications

Influence of temperature and humidity coupling on rutting deformation of asphalt pavement

Influence of temperature and humidity coupling on rutting deformation of asphalt pavement

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