Concrete and cement-based materials inherently possess an autogenous self-healing capacity, which is even high in High and Ultra-High-Performance Concretes because of the high amount of cement and supplementary cementitious materials (SCM) and low water/cementitious material (w/c) ratio. Despite the huge amount of literature on the topic self-healing concepts still fail to consistently enter design strategies to effectively quantify their benefits on the structural performance. In this study, quantitative relationships have been developed through design charts and artificial neural network (ANN) models. The employed approaches aimed at establishing a correlation between the mix proportions, exposure time, the width of the initial crack, and...
Heuristically known at least since the first half of XIX century, the self-healing capacity of cemen...
Heuristically known at least since the first half of XIX century, the self-healing capacity of cemen...
Self-healing cement based materials, by controlling and repairing cracks, could prevent “permeation ...
Concrete and cement-based materials inherently possess an autogenous self-healing capacity, which is...
Concrete and cement-based materials inherently possess an autogenous self-healing capacity. Despite ...
Cracks typically develop in concrete due to shrinkage, loading actions, and weather conditions; and ...
An extensive simulation program is used in this study to discover the best ANN model for predicting ...
Developing accurate and interpretable models to forecast concrete’s self-healing behavior is of inte...
Ultra High-Performance Concrete (UHPC) has superior mechanical properties, including high compressiv...
This paper presents an approach to predicting the intrinsic self-healing in concrete using a hybrid ...
Advances in machine learning (ML) methods are important in industrial engineering and attract great ...
Worldwide increasing consciousness for sustainable use of natural resources has made “overcoming the...
Heuristically known at least since the first half of XIX century, the self-healing capacity of cemen...
Heuristically known at least since the first half of XIX century, the self-healing capacity of cemen...
Self-healing cement based materials, by controlling and repairing cracks, could prevent “permeation ...
Concrete and cement-based materials inherently possess an autogenous self-healing capacity, which is...
Concrete and cement-based materials inherently possess an autogenous self-healing capacity. Despite ...
Cracks typically develop in concrete due to shrinkage, loading actions, and weather conditions; and ...
An extensive simulation program is used in this study to discover the best ANN model for predicting ...
Developing accurate and interpretable models to forecast concrete’s self-healing behavior is of inte...
Ultra High-Performance Concrete (UHPC) has superior mechanical properties, including high compressiv...
This paper presents an approach to predicting the intrinsic self-healing in concrete using a hybrid ...
Advances in machine learning (ML) methods are important in industrial engineering and attract great ...
Worldwide increasing consciousness for sustainable use of natural resources has made “overcoming the...
Heuristically known at least since the first half of XIX century, the self-healing capacity of cemen...
Heuristically known at least since the first half of XIX century, the self-healing capacity of cemen...
Self-healing cement based materials, by controlling and repairing cracks, could prevent “permeation ...