Advanced Functional Materials for Concrete and Ceramics

**Chapter 12**

**Abstract**

agents.

**191**

**1. Introduction**

context offers an actual solution.

Self-Healing Concrete and

Concrete is one of the most used materials in the world with robust applications and increasing demand. Despite considerable advancement in concrete and cementitious materials over last centuries, infrastructure built in the present world with these materials, such as dams, roads, bridges, tunnels and buildings requires intensive repair and maintenance throughout its design life. Self-healing concrete and cementitious materials, which have the ability to recover after initial damage, have the potential to address these challenges. Self-healing technology in concrete and cementitious materials can mitigate the unnecessary repair and maintenance of built infrastructure as well as overall CO2 emission due to cement production. This chapter provides the state-of-the-art of self-healing concrete and cementitious materials, mainly focusing on autogenic or intrinsic self-healing using fibre, shrinkable polymers, minerals and supplementary cementitious materials, and autonomic self-healing using non-traditional concrete materials such as microscale to macroscale capsule as well as vascular systems with polymeric, mineral and bacterial

**Keywords:** concrete, autogenic self-healing, autonomic self-healing,

Concrete is the most used and efficient construction material in the world. It is durable, can resist high compressive stress, is cheaper than most of the construction materials and can be moulded in a wide variety of shapes. Despite that concrete cracks due to its weakness in tension, shrinkage, fatigue loading, and under the action of environmental conditions. These microcracks can reduce concrete's toughness, increase permeability, which can ultimately lead to the reduction of concrete's structural integrity, durability and life span. Self-healing concrete in that

Any process whereby concrete recovers its performance after initial damage is termed self-healing in concrete [1]. A typical self-healing in cementitious materials is presented in **Figure 1**. The concept of concrete self-healing has evolved from that found in biological life forms, that is, plants and animals that naturally exhibit

According to Schlangen and Joseph (Cited in [2]), the strength of concrete gradually decreases when the first repair is required. Also, commonly, a second repair is required in concrete after 10–15 years. However, the initial repair period

healing process, mineral, polymer, microstructure

self-healing performance when any damage appears.

Cementitious Materials

*Tanvir Qureshi and Abir Al-Tabbaa*
