Cement paste is the basic but most complex component in cement composites, which are the dominant construction material in the world. Understanding and predicting elastic properties and fracture of hydrating cement paste are challenging tasks due to its complex microstructure, but important for durability assessments and life extension decisions. A recently proposed microstructure-informed site-bond model with elastic-brittle spring bundles is developed further to predict the evolution of elastic properties and fracture behaviour of cement paste. It is based on microstructural characteristics of hydrating cement paste obtained from X-ray computed microtomography (micro-CT) with a spatial resolution of 0.5 μm/voxel. Volume fraction and size ...
The development of the elastic properties of a hardening cement paste results from the microstructur...
A combination of laboratory experiments and numerical simulations at multiple length scales can prov...
Application of micromechanical modelling of hydrated cement paste (HCP) gains more and more interest...
AbstractCement paste is the basic but most complex component in cement composites, which are the dom...
AbstractCement paste is a binder for cementitious materials and plays a critical role in their engin...
Cement composites are the most popular and widely used construction material in the world. Understa...
The development of the elastic properties of a hardening cement paste results from the microstructur...
To understand better the fracture processes in cement-based materials, it is essential to predict th...
AbstractTo understand better the fracture processes in cement-based materials, it is essential to pr...
This work proposes a method for numerically investigating the fracture mechanism of cement paste at ...
The presented study is related to the EU 7 th Framework Programme CODICE (COmputationally Driven des...
Elastic behaviour of cement paste can be predicted by a coupled hydration-mechanical numerical model...
This work presents a study of stochastic fracture properties of cement paste at the micro length sca...
AbstractThis paper proposes a statistical multiscale homogenization method to extract effective elas...
Numerical modeling of fracture processes of brittle materials, such as cement paste, mortar, concret...
The development of the elastic properties of a hardening cement paste results from the microstructur...
A combination of laboratory experiments and numerical simulations at multiple length scales can prov...
Application of micromechanical modelling of hydrated cement paste (HCP) gains more and more interest...
AbstractCement paste is the basic but most complex component in cement composites, which are the dom...
AbstractCement paste is a binder for cementitious materials and plays a critical role in their engin...
Cement composites are the most popular and widely used construction material in the world. Understa...
The development of the elastic properties of a hardening cement paste results from the microstructur...
To understand better the fracture processes in cement-based materials, it is essential to predict th...
AbstractTo understand better the fracture processes in cement-based materials, it is essential to pr...
This work proposes a method for numerically investigating the fracture mechanism of cement paste at ...
The presented study is related to the EU 7 th Framework Programme CODICE (COmputationally Driven des...
Elastic behaviour of cement paste can be predicted by a coupled hydration-mechanical numerical model...
This work presents a study of stochastic fracture properties of cement paste at the micro length sca...
AbstractThis paper proposes a statistical multiscale homogenization method to extract effective elas...
Numerical modeling of fracture processes of brittle materials, such as cement paste, mortar, concret...
The development of the elastic properties of a hardening cement paste results from the microstructur...
A combination of laboratory experiments and numerical simulations at multiple length scales can prov...
Application of micromechanical modelling of hydrated cement paste (HCP) gains more and more interest...