This project is based on theoretical research on bubble stability, targets advanced foreign products, carries out formula design, develops a new foam stabilizer, conducts trial production, and has been tested in gas filling plants.

In the theoretical research part of bubble stability, first, different physical foaming agents were selected, focusing on the influence and mechanism of environmental temperature on physical foaming agents; secondly, different aluminum powder types were selected and different foam stabilizers were added to change the external temperature and slurry viscosity, combined with the actual formulation and slurry viscosity in production, to study its influence and mechanism on bubble stability; Finally, through formula design, a new foam stabilizer was developed, and its performance was verified through trial production and trial application, user feedback was listened to, and technology was continuously improved.

During the implementation of the project, relevant professional companies were also selected to conduct trial production and trial application in production practice, which not only improves the feasibility of the project research, but also is more conducive to the transformation of new products in the future.

Through project research, we mainly solve the basic problems of formulation technology and chemical bubble stability characterization of new foam stabilizers, and design and develop upgraded new foam stabilizers to meet the needs of producing high-quality aerated concrete.