Study on diffusion mechanism and failure behavior of epoxy coatings focusing on synergistic effect of temperature and water molecules

The research on the diffusion of water in coatings has been a hot topic in many fields, such as chemistry, coating structure and hydrogen bonding. In this paper, DGEBA epoxy coating was used as a sample to explore the diffusion process of 3 wt.% NaCl solution at different temperatures. Two-stage diffusion was established by immersion experiment and MD simulation. The synergistic effect of temperature and water on DGEBA properties was revealed by FTIR method and adsorption-desorption cyclic testing. The results showed that as the temperature increased, the saturation water content in coatings increased. At different temperatures, the diffusion process of water presented two-phase characteristics, and the influence of temperature on the diffusion process was mainly manifested in the cross-linking density at higher locations. Based on the variation law of swelling coefficient in per unit time (24 h), the conditions for water-coating interaction and formation of water clusters in this paper were proposed. The synergistic effect of water and temperature on DGEBA properties was reflected in two aspects: at lower temperature (20 degrees C), water would only change the physical structure of the coatings, while the water broke the DGEBA chains at higher temperature (60 degrees C).

Automated summary

The research focuses on the diffusion of water in coatings, using DGEBA epoxy coating as a sample. The study reveals a synergistic effect of temperature and water on DGEBA properties, showing that the diffusion process of water in coatings has two-phase characteristics at different temperatures. The interaction between water and coatings and the formation of water clusters are discussed based on the variation law of swelling coefficient.