This paper aims to develop a multiscale thermo-mechanical coupling model across from
meso-scale to macro-scale to study the tensile thermos-mechanical behavior of fiber …

In the current study, a multiaxial multiscale compressive stress-strain model for Fiber
Reinforced Cementitious Composites (FRCC) was innovatively developed. The proposed …

Blended fibres are being utilized in ordinary Portland cement-based materials (CBMs). The
inclusion of blended fibre (a mix of several fibre types) may help CBMs perform better under …

Many studies on cement-based materials have addressed their deterioration at high
temperatures. However, improvements in the performance of fiber-reinforced cementitious …

This paper presents a new constitutive model for fiber reinforced cementitious composite
materials (FRCC), which is particularly suitable for High Performance Cementitious …

In this paper, we developed a novel hybrid fiber reinforced cementitious composites
(HFRCCs) using steel fibers, polyvinyl alcohol (PVA) fibers and calcium carbonate whisker …

Fire is one of the most unfavorable conditions that cement-based composites can face
during their service lives. The uniaxial tensile and flexural tensile properties of the steel …

To enhance the mechanical properties and cost-effectiveness of conventional polyvinyl
alcohol fiber reinforced strain hardening cementitious composite (PVA-SHCC), a modified …

Fibers applied to reinforce the cementitious matrix exhibit a wide range of scales, from
distributed carbon nanomaterials, chopped short fibers to continuous fibrous reinforcements …

In this paper, the tensile and shear constitutive behavior of Fiber Reinforced Cementitious
Matrix (FRCM) composites is addressed. A nonlinear finite-element computational approach …