Add to ORKGThe influence of different drying conditions on the compressive strength and strength development rates of high strength concrete up to an age of 28 days was evaluated. Two HSC mixes with and without silica fume addition were used to cast cubes of 10 cm size. The cubes were stored in different drying conditions until the age of testing at 3, 7, 28 days
AbstractIn this study, the effect of temperature on compressive strength, spalling and mass loss of ...
The structural use of concrete depends largely on its strength, especially compressive strength.Vari...
High performance concrete (HPC) is a new class of concrete that has superior characteristics compare...
The influence of different drying conditions on the compressive strength and strength development ra...
The short and long time effects of different curing regimes and inclusion of chemical and mineral ad...
Seventy 152 mm (6 in.) concrete cubes and fifteen 152 × 305 mm (6 × 12 in.) cylinders of high-streng...
The short and long time effects of different curing regimes and inclusion of chemical and mineral ad...
The research was made in order to determine the influence of the standard and non-standard curing co...
This paper reports a part of an ongoing laboratory investigation in which the compressive strength o...
The influence of constituent materials and curing regimes on compressive strength characterization o...
This paper presents the results of an experimental study on the effects of curing methods and curing...
AbstractWith the development of new and efficient admixtures for concrete, the production of high st...
This study examined the relative strength-maturity relationship of high-strength concrete (HSC) spec...
The shrinkage of concrete is crucial under aggressive environmental conditions to avoid short and lo...
This paper presents the results of a series of studies on the influence of curing conditions on the ...
AbstractIn this study, the effect of temperature on compressive strength, spalling and mass loss of ...
The structural use of concrete depends largely on its strength, especially compressive strength.Vari...
High performance concrete (HPC) is a new class of concrete that has superior characteristics compare...
The influence of different drying conditions on the compressive strength and strength development ra...
The short and long time effects of different curing regimes and inclusion of chemical and mineral ad...
Seventy 152 mm (6 in.) concrete cubes and fifteen 152 × 305 mm (6 × 12 in.) cylinders of high-streng...
The short and long time effects of different curing regimes and inclusion of chemical and mineral ad...
The research was made in order to determine the influence of the standard and non-standard curing co...
This paper reports a part of an ongoing laboratory investigation in which the compressive strength o...
The influence of constituent materials and curing regimes on compressive strength characterization o...
This paper presents the results of an experimental study on the effects of curing methods and curing...
AbstractWith the development of new and efficient admixtures for concrete, the production of high st...
This study examined the relative strength-maturity relationship of high-strength concrete (HSC) spec...
The shrinkage of concrete is crucial under aggressive environmental conditions to avoid short and lo...
This paper presents the results of a series of studies on the influence of curing conditions on the ...
AbstractIn this study, the effect of temperature on compressive strength, spalling and mass loss of ...
The structural use of concrete depends largely on its strength, especially compressive strength.Vari...
High performance concrete (HPC) is a new class of concrete that has superior characteristics compare...