Concrete bubble blower additive has a long hydrocarbon chain on one end and a polar component on the other. The polar head tends to get into the water and the non-polar head tends to get into the air. These orientations stabilize the bubbles that enter the concrete mix. There are, of course, various components in the mixing design that will affect the amount of fresh concrete. For example, components such as increasing cement content, increasing cement softness, and increasing temperature and pumping of concrete will reduce the amount of air, and components such as increased alkali will increase the air content in concrete.
Properties and effects of concrete bubble blower:
- Increased concrete resistance against repeated melting and freezing cycles
- Reduced concrete permeability
- Maintain and maintain the air bubbles created in the concrete
- Increase durability and durability of concrete in cold environment
- Reduce concrete mixing water without compromising on concrete performance
- Decrease of concrete surface scaling due to the production of fine air bubbles
- Decrease in bond strength of capillary tubes in concrete
- Their path through the formation of air bubbles
- Decrease in waterlogging and separation of aggregates due to increase
- More adhesion and consistency of concrete
- Increase concrete efficiency, especially in concrete with poor granularity.
concrete bubble blower uses:
- Airport runways, concrete roads, deck decks
- All frozen concrete surfaces exposed.
- Construction of concrete for dams and tanks and irrigation and drainage networks
- Concrete in cold areas
- Manufacture of concrete tables and floors
- Construction and implementation of concrete cold storage
- Suitable for use in concrete containing high lime cement
- Suitable for the application of open-air concrete and concrete surfaces.