Abstract Ultra High Performance Concrete (UHPC) is one of the recently emerging
technologies in the construction industry. The strain hardening behavior, ductility, and …

The incorporation of steel fibers in a concrete mix enhances the shear capacity of reinforced
concrete beams and a comprehensive understanding of this phenomenon is imperative to …

This paper presents a data-driven machine learning (ML) framework for predicting failure
mode and shear capacity of Ultra High Performance Concrete (UHPC) beams. To this end, a …

To provide more accurate and reliable predictions of the shear strength of ultrahigh-
performance concrete (UHPC) beams, in this study, the machine learning (ML) approaches …

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 recent years, adding fibres into brittle concrete to improve ductility has gained momentum
in the construction industry. Despite the significant momentum, limitations do exist in design …

Ultrahigh-performance concrete (UHPC) typically contains short steel fibers with a fiber
volume of 2% or larger. This relatively high fiber volume leads to high UHPC tensile …

Understanding shear behavior is crucial for the design of reinforced concrete beams and
sustainability in construction and civil engineering. Although numerous studies have been …

The present study reported the findings of an experimental investigation of steel-ultrahigh
performance concrete (UHPC) composite beams with hot rolled shape steel (HRSS). In …

Because of their tensile strain-hardening characteristics, ultrahigh-performance concrete
(UHPC) materials offer significant advantages in terms of beam shear capacity and …