Add to ORKGModern high and ultra-high performance concretes (HPC) and (UHPC) are demonstrating very good mechanical properties and durability; however these properties can be compromised by early age cracking caused by autogenous shrinkage. Autogenous shrinkage is defined as the bulk deformation of a closed, isothermal, cement-like material system not subjected to external forces and its main driving force is accepted to be capillary pressure
To limit self-desiccation and autogenous shrinkage that may lead to early-age cracking of ultra-high...
Concrete is the most consumed and widely used building material in the world nowadays. Varying the a...
Volume change of concrete resulting from structural and environmental factors is an acceptable pheno...
Modern high and ultra-high performance concretes (HPC) and (UHPC) are demonstrating very good mechan...
Autogenous shrinkage is a major concern in early age cracking of high performance concrete (HPC). Lo...
High-performance concrete (HPC) is generally characterized by a low water/binder ratio and by silica...
Autogenous shrinkage is a significant issue in ultra-high-performance concrete (UHPC). Internal curi...
Advances in concrete technology have led to a widespread use of High Performance Concretes (HPC) wit...
Here, the intrinsic driving mechanisms of autogenous shrinkage for Ultra-High Performance Concrete (...
High performance cement-based materials, such as high or ultra-high performance concrete (HPC or UHP...
The effect of internal curing on the structural behaviour of large high-performance concrete specime...
High performance concrete (HPC) is a high strength concrete that undergoes a lot of early-age autoge...
High-performance concrete (HPC) with low w/b-ratio experiences a considerable chemical shrinkage and...
Early-age shrinkage and cracking have become reoccurring problem in concrete construction.Conditions...
(Ultra-)high performance concrete ((U)HPC) is very prone to autogenous shrinkage cracking. These cra...
To limit self-desiccation and autogenous shrinkage that may lead to early-age cracking of ultra-high...
Concrete is the most consumed and widely used building material in the world nowadays. Varying the a...
Volume change of concrete resulting from structural and environmental factors is an acceptable pheno...
Modern high and ultra-high performance concretes (HPC) and (UHPC) are demonstrating very good mechan...
Autogenous shrinkage is a major concern in early age cracking of high performance concrete (HPC). Lo...
High-performance concrete (HPC) is generally characterized by a low water/binder ratio and by silica...
Autogenous shrinkage is a significant issue in ultra-high-performance concrete (UHPC). Internal curi...
Advances in concrete technology have led to a widespread use of High Performance Concretes (HPC) wit...
Here, the intrinsic driving mechanisms of autogenous shrinkage for Ultra-High Performance Concrete (...
High performance cement-based materials, such as high or ultra-high performance concrete (HPC or UHP...
The effect of internal curing on the structural behaviour of large high-performance concrete specime...
High performance concrete (HPC) is a high strength concrete that undergoes a lot of early-age autoge...
High-performance concrete (HPC) with low w/b-ratio experiences a considerable chemical shrinkage and...
Early-age shrinkage and cracking have become reoccurring problem in concrete construction.Conditions...
(Ultra-)high performance concrete ((U)HPC) is very prone to autogenous shrinkage cracking. These cra...
To limit self-desiccation and autogenous shrinkage that may lead to early-age cracking of ultra-high...
Concrete is the most consumed and widely used building material in the world nowadays. Varying the a...
Volume change of concrete resulting from structural and environmental factors is an acceptable pheno...