Add to ORKGThis study investigates the compressive and flexural strengths, flexural modulus and air permeability of concrete samples containing 0·75% by cement weight of modified calcium nitrate self-healing microcapsules. The compressive and flexural strengths of concrete mixes with microcapsules were determined before healing and compared with those of the control mix. Moreover, another set of samples were loaded up to 60% of their ultimate load and placed in a water bath to accelerate their healing. The samples\u27 air permeability was measured before loading, after applying 60% of the ultimate load, and after 3 and 7 d of healing. The stress-strain curves were plotted to determine the flexural modulus. The results show that there is a significant ...
The objective of this study is to evaluate a new generation of self-healing materials that hold prom...
Calcium nitrate synthesis of in urea-formaldehyde shell has recently been used to produce self-heali...
Concrete is one of the most important construction materials, used to make buildings, bridges, roads...
Self-healing concrete with microencapsulated calcium nitrate was investigated. The compressive stren...
The main objective of this study was to evaluate calcium nitrate tetrahydrate as a healing agent and...
The use of encapsulating healing agents that allow the self-healing of concrete has emerged as a pot...
The self-healing efficiency of cementitious materials was improved by developing several strategies ...
This study investigates the strength reduction associated with incorporating calcium nitrate microca...
This study presents characterisation of concrete samples containing 0.75% by cement weight of modifi...
Considerable interest has been directed in recent years toward the use of self-healing materials in ...
The objective of this study was to evaluate the self-healing effectiveness of urea-formaldehyde micr...
Self-healing concrete designs can protect against deterioration and improve durability. However, the...
This paper presents an evaluation of dual self-healing mechanisms in concrete, with a focus on the a...
The recovery behavior for strength and impermeability of cementitious composites embedded with organ...
The amounts of the components in a microcapsule self-healing system significantly impact the basic p...
The objective of this study is to evaluate a new generation of self-healing materials that hold prom...
Calcium nitrate synthesis of in urea-formaldehyde shell has recently been used to produce self-heali...
Concrete is one of the most important construction materials, used to make buildings, bridges, roads...
Self-healing concrete with microencapsulated calcium nitrate was investigated. The compressive stren...
The main objective of this study was to evaluate calcium nitrate tetrahydrate as a healing agent and...
The use of encapsulating healing agents that allow the self-healing of concrete has emerged as a pot...
The self-healing efficiency of cementitious materials was improved by developing several strategies ...
This study investigates the strength reduction associated with incorporating calcium nitrate microca...
This study presents characterisation of concrete samples containing 0.75% by cement weight of modifi...
Considerable interest has been directed in recent years toward the use of self-healing materials in ...
The objective of this study was to evaluate the self-healing effectiveness of urea-formaldehyde micr...
Self-healing concrete designs can protect against deterioration and improve durability. However, the...
This paper presents an evaluation of dual self-healing mechanisms in concrete, with a focus on the a...
The recovery behavior for strength and impermeability of cementitious composites embedded with organ...
The amounts of the components in a microcapsule self-healing system significantly impact the basic p...
The objective of this study is to evaluate a new generation of self-healing materials that hold prom...
Calcium nitrate synthesis of in urea-formaldehyde shell has recently been used to produce self-heali...
Concrete is one of the most important construction materials, used to make buildings, bridges, roads...