In this study, a three-dimensional mesoscopic numerical model considering concrete
heterogeneity and explicit modelling of basalt fibers was established to simulate the static …

The incorporation of basalt fibres in lightweight aggregate concrete (LAC) is a potentially
effective approach to ameliorate failure strength and ductility, which has been extensively …

Basalt fiber reinforced concrete (BFRC) can be regarded as a composite of cement mortar,
aggregate and basalt fiber. In this paper, the influences of the basalt fiber's length and …

In this paper, three-point bending tests on precast notched beam and multiscale numerical
simulation were used to evaluate and predict the effect of different Basalt Fiber (BF) dosages …

Based on split Hopkinson bar (SHPB) loading system and digital image correlation (DIC)
technology, a series of dynamic splitting experiments of basalt fiber reinforced concrete …

The objective of this study is to create comprehensive multiscale models for predicting the
split tensile strength (STS) and flexural strength (FS) of basalt fiber-reinforced concrete, with …

Recently, multiscale hybrid fiber‐reinforced concrete is used instead of single fiber‐
reinforced concrete to achieve better performance with hybrid fiber at their respective scale …

This paper presents systematic experimental investigations on the combined influences of
loading strain rate and structural size on uniaxial-compression failure characteristics of LAC …

Hybrid basalt-sisal fiber reinforced concrete (BSFRC) has good application prospects in
construction engineering, while the research on its mechanical properties and impact …

In this study, the effects of basalt fiber content on the uniaxial compressive mechanical
properties and damage of concrete were investigated. Acoustic emission (AE) technology …