A new constitutive model for fibre reinforced cementitious composites based on
micromechanical solutions is proposed. The model employs a two-phase composite based …

A simple model is proposed to predict the uniaxial tensile behaviour of ultra-high
performance fibre-reinforced cementitious composites (UHPFRC) based on a meso-level …

A model for simulating micro-cracking in cementitious composite materials is presented. The
model employs micro-mechanical solutions of a material with a matrix phase, spherical …

The strain hardening and tension softening response of short fiber‐reinforced cementitious
composites under unidirectional tensile/flexural loading is modelled using concepts from …

A micromechanical model is constructed for the compressive strength of fiber-reinforced
cementitious composites (FRCs). This model is based on the classical models of …

A novel damage model based on micromechanics is proposed for hybrid fiber reinforced
cementitious composites under uniaxial compression. In this model, a multilevel …

A micromechanical constitutive model for concrete is proposed in which microcrack
initiation, in the interfacial transition zone between aggregate particles and cement matrix, is …

Fiber bridging along cracks is an important mechanism governing the fracture toughness
and the pseudo-ductility of fiber-reinforced brittle materials and structures. This paper …

A micromechanical model for cementitious composite materials is described in which
microcrack initiation, in the interfacial transition zone between aggregate particles and …

This paper will describe a procedure for modelling the complete macroscopic response
(including strain hardening and tension softening) of short fibre reinforced cementitious …