Lowers water content while maintaining flow.
) so that sunlight breaks down pollutants on the building's surface. Science and technology of concrete admixtures
Combinations of water-reducing and setting-time controls. Lowers water content while maintaining flow
The history of admixtures is as old as the Roman Empire . Long before modern chemistry, Roman builders experimented with organic "potions" to make their concrete more workable and durable. They added , blood , and eggs to their mixes. These proteins acted as primitive air-entraining agents, helping the concrete withstand freeze-thaw cycles and making it easier for laborers to pour into the massive forms of the Pantheon. The Chemical Revolution: Master of Flow The history of admixtures is as old as the Roman Empire
The solution came in 1981 with the invention of in Japan. These "comb-shaped" molecules revolutionized construction. They act like microscopic magnets, wrapping around cement particles and pushing them apart through electrostatic and steric repulsion. This allows concrete to be "fluidized" exceptionally well without adding extra water, leading to the creation of:
As we move into the 21st century, admixtures are no longer just about strength; they are about . Concrete is the second most consumed resource on Earth, and its production is a major source of CO2cap C cap O sub 2 Modern science is turning to:
Using nano-silica or carbon nanotubes to fill microscopic pores, making concrete virtually impenetrable by water or salt. Self-Cleaning Surfaces: Adding Titanium Dioxide ( TiO2cap T i cap O sub 2