SPECIAL ENGINEERING MATERIALS |
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Effect and Mechanism of Low Temperature Curing on the Early Performance of Epoxy Resin Based Mortar |
LYU Yan, BAI Erlei*, WANG Zhihang, XIA Wei
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Aviation Engineering School, Air Force Engineering University, Xi'an 710038, China |
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Abstract Epoxy resin based mortar is a new high-performance engineering material. In order to study the effect of low temperature curing conditions on the working performance and early mechanical properties of epoxy resin based mortar, a low-temperature environment was constructed using a low temperature test system. The compressive strength, flexural strength, flowability, setting time, and internal temperature were tested, and the microstructure and pore structure of epoxy resin based mortar were analyzed. The results show that the performance of epoxy resin based mortar is greatly affected by temperature. When the temperature is 0 ℃, the fluidity is only 112 mm, but it increases rapidly with increasing temperature. Low temperature curing weakens the internal thermal effect of mortar and delays the setting time. The early strength loss is also significant. At 0 ℃, the mortar is cured for 1 d to form strength, indicating that the low-temperature environment greatly delays the curing rate of the system. Microscopic analysis shows that low-temperature curing leads to loose internal structure, increases cracks and pores in the mortar, indicating incomplete curing reaction and thus reducing the performance of the mortar. When the curing temperature is 20 ℃, the internal structure is relatively dense and the macro structure also exhibits high strength.
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Published: 10 March 2024
Online: 2024-03-18
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Fund:National Natural Science Foundation of China (52278287). |
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