Study on slow-release mechanism of salt-storage anti-icing fog seal

To expand the design ideas of the slow- and controlled-release performance of salt-storage anti-icing fog seals, this study first assumed a release environment based on the principles of drug release kinetics and then examined the influence of antifreeze content, temperature, and asphalt mixture surface structure on the release mechanism of antifreeze agents by fitting the results of the designed cumulative antifreeze release test for the anti-icing fog seal with the Peppas equation. The pharmacokinetic equation with the release mechanism parameters, K and n, effectively described the release mechanism of the antifreeze inside the fog seal. The antifreeze content did not affect the percentage rate of diffusion (diffusion mechanism) but was positively correlated with the mass release rate. Temperature was positively correlated with the release rate parameter K, and the surface structure of the asphalt mixture reduced the K and n values, which substantially improved the slow-release performance.

Automated summary

This study explores the slow- and controlled-release performance of salt-storage anti-icing fog seals by applying drug release kinetics principles. The results indicate that antifreeze content, temperature, and asphalt mixture surface structure influence the release mechanism of antifreeze agents. These findings are essential for improving the slow-release performance.