Overall durability of structures. This is particularly important for infrastructure such as bridges, roads, and constructions that require of repairs or maintenance.
Furthermore, self-healing concrete is utilized to construct new structures. It’s being used to construct, for instance, marine structures like seawalls and harbors. The structures are exposed to saltwater, which can lead to the degrading of concrete in a short time. Self-healing cement can withstand this type of damage and makes it a good solution in marine constructions.
The old Roman concrete that self-heals is also used in underground constructions like tunnels or underground storage areas. They’re exposed to harsh elements and water, which can cause them to crack and degrade. Self-healing concrete provides strength and security in such environments.
Self-healing cement may also be employed for flooring in factories. The high traffic and heavy weights that industrial floors are subjected to, can cause conventional concrete to be damaged and crack, then deteriorate rapidly. The self-healing cement can resist the excessive load and provides a longer life for industrial floors.
Another application that could be made of Roman self-healing concrete is in the realm of precast concrete. Precast concrete can be used to construct numerous structures including bridges, building and parking garages. Concrete precast structures can be made more durable and long-lasting by using self-healing cement. This can save both time and energy as well as money.
Future Developments in Self-Healing Concrete
This technology is still relatively in its early stages There are several research projects in progress to increase and improve its uses. One of the areas of research is the development of novel types of Roman self-healing, or self-healing, concrete. These types of concrete can restore various forms of damage.