Add to ORKGThis research study investigated the shrinkage behavior of High-strength Concrete (HSC) subjected to accelerated curing and volume to surface area (V/SA) ratio. In addition, the effects of accelerated curing temperature, water-crementitious (w/cm) ratio, fly ash replacement of cement level and surface sealant were also studied. --Abstract, page iii
In this article an extensive experimental and numerical study of shrinkage in HPC is outlined. For t...
During its service life, concrete undergoes volume changes which can affect quality and durability o...
High performance cement-based materials, such as high or ultra-high performance concrete (HPC or UHP...
This research study investigated the shrinkage behavior of High Strength Concrete (HSC) subjected to...
A research study was undertaken to determine the effect of early-age accelerated steam curing on the...
Master’s thesis examines the effect of the shrinkage reducing additives on rheological properties of...
This article outlines experimental and numerical studies on shrinkage of High-Performance Concrete, ...
This paper outlines an experimental and numerical study on the effect of w/c, silica fume and age on...
In this paper an experimental and analytical exploration on the effect of water-binder ratio (w/b), ...
This paper presents the results of an experimental investigation carried out to evaluate the shrinka...
This paper presents the results of an experimental investigation carried out to evaluate the shrinka...
Concrete undergoes volume change as it changes phases from plastic to solid. Volume change due to wa...
The effects of a novel heat curing regime and longitudinal reinforcement ratio on early-age shrinkag...
The short and long time effects of different curing regimes and inclusion of chemical and mineral ad...
The short and long time effects of different curing regimes and inclusion of chemical and mineral ad...
In this article an extensive experimental and numerical study of shrinkage in HPC is outlined. For t...
During its service life, concrete undergoes volume changes which can affect quality and durability o...
High performance cement-based materials, such as high or ultra-high performance concrete (HPC or UHP...
This research study investigated the shrinkage behavior of High Strength Concrete (HSC) subjected to...
A research study was undertaken to determine the effect of early-age accelerated steam curing on the...
Master’s thesis examines the effect of the shrinkage reducing additives on rheological properties of...
This article outlines experimental and numerical studies on shrinkage of High-Performance Concrete, ...
This paper outlines an experimental and numerical study on the effect of w/c, silica fume and age on...
In this paper an experimental and analytical exploration on the effect of water-binder ratio (w/b), ...
This paper presents the results of an experimental investigation carried out to evaluate the shrinka...
This paper presents the results of an experimental investigation carried out to evaluate the shrinka...
Concrete undergoes volume change as it changes phases from plastic to solid. Volume change due to wa...
The effects of a novel heat curing regime and longitudinal reinforcement ratio on early-age shrinkag...
The short and long time effects of different curing regimes and inclusion of chemical and mineral ad...
The short and long time effects of different curing regimes and inclusion of chemical and mineral ad...
In this article an extensive experimental and numerical study of shrinkage in HPC is outlined. For t...
During its service life, concrete undergoes volume changes which can affect quality and durability o...
High performance cement-based materials, such as high or ultra-high performance concrete (HPC or UHP...