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Temperature Field Evolution and Deformation Characteristics for Collapsible Loess Based on Microwave Thermal Reinforcement Method

Author Affiliations
China University of Mining and Technology, Southeast University, Chang'an University, Dalian University of Technology, ...
Published InJournal of Materials in Civil Engineering
Year2025
Citations3

Abstract

High-temperature sintering technology offers the advantages of rapid processing and effective reinforcement, making it an excellent method for treating loess foundation diseases. This paper investigates the evolution of the temperature field in loess following microwave sintering through laboratory-scale model experiment. Additionally, one-dimensional compression experiments are performed on layered samples of sintered loess to explore their compression deformation characteristics. The results indicate that the temperature field exhibits a “wave” distribution in both horizontal and vertical directions. The thermal reinforcement effect is mainly concentrated in the depth range of 5–15 cm and the diameter range of 6 cm. Overall, a higher compaction degree results in a greater change in surface temperature, while a lower compaction degree leads to a wider heating range.…
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