Simulation of self-healing by further hydration in cement-based materials (abstract)

The effects of capules on self-healing efficiency in cementitious materials

Inorganic powder encapsulated in brittle polymer particles for self-healing cement-based materials

Inorganic powder encapsulated in brittle polymer particles for self-healing cement-based materials

Possibility of self-healing by using capsules and vascular system to provide water in cementititious materials

Possibility of self-healing by using capsules and vascular system to provide water in cementitious materials

Self-healing of cracks by using saturated calcium hydroxide solution to activate slag in slag cementitious materials

A coupled transport-reaction model for simulating autogenous self-healing in cementitious materials. Part I: Theory

A coupled transport-reaction model for simulating autogenous self-healing in cementitious materials. Part II: Validation through comparison with experiments

A review on self-healing in reinforced concrete structures in view of serving conditions.

Use of rice husk ash for mitigating the autogenous shrinkage of cement pastes at low water cement ratio

Numerical Studies of the Effects of Water Capsules on Self-Healing Efficiency and Mechanical Properties in Cementitious Materials

New insights into autogenous self-healing in cement paste based on nuclear magnetic resonance (NMR) tests

Examining the “time-zero” of autogenous shrinkage in high/ultra-high performance cement pastes

Geocon bridge geopolymer concrete mixture for structural applications

Reactions of self-healing agents and the chemical binding of aggressive ions in sea water: Thermodynamics and kinetics

Evaluation of short-term streamflow prediction methods in Urban river basins

Incorporating elastic and creep deformations in modelling the three-dimensional autogenous shrinkage of cement paste

Characterizing the Effects of Al(OH)3 and Mg(OH)2 on Reaction Products and Drying Shrinkage Characteristics of Alkali-activated Slag

Hydrogenated Boron Phosphide THz-Metamaterial-Based Biosensor for Diagnosing COVID-19: A DFT Coupled FEM Study