Ancient roman self-healing concrete designs like seawalls harbors, and piers. It is possible for saltwater to cause concrete structures of this type to crack. That’s why self-healing concrete can be a great option for marine structures.

Another application of ancient Roman self-healing concrete can be found in the construction of underground structures such as tunnels and underground storage facilities. These structures are typically exposed to water and other harsh conditions, making them susceptible to cracking, and degradation. Self-healing concrete provides durability and protection for these kinds of conditions.

Self-healing concrete may also be used for floors that are industrial. Concrete can crack quickly because of the constant traffic and pressures industrial floors endure. Self-healing concrete will hold up against the weight of heavy objects and offer a long lifespan for industrial floors.

Precast concrete, another potential utilization of the Roman self-healing cement can be an alternative. Concrete precast is a great material for the construction of a variety of buildings and bridges. The usage of self-healing construction in precast concrete can improve the durability and lifespan of the structure by reducing time, cost and energy.

Future developments in self-healing concrete

Self-healing concrete is still relatively in its early stages, and there’s plenty of research being done to improve and expand its applications. The development of self-healing concrete originated from Rome, and adept at repairing various types of damage is an area of interest. For instance, researchers are currently developing self-healing, self-repairing concrete that could repair damaged caused by fire or impact.

The development of self-healing concrete is a different area of study. Current self-healing processes may take weeks or months to heal a crack. Scientists are working to determine the cause of cracks.

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