Generally high strength engineered cementitious composites (ECC) requires high cement
content, which is negative to its sustainability as the cement production contributes as much …

In this study, an agricultural waste-rice husk ash (RHA) is proposed to substitute fly ash in
high strength, high ductility engineered cementitious composites (ECC). The experimental …

In this paper, the mechanical performance of high-strength ECC with hybriding steel and PE
fibers (HF-ECC) was investigated experimentally; meanwhile, the effects of ultra-fine fly ash …

Owing to its exceptional strain capacity, which can reach hundreds of times that of normal
concrete, and its reduced crack width, engineered cementitious composites (ECC) are a …

Strain-hardening cementitious composites (SHCC) have been widely studied due to their
high toughness and durability. The high cement content increases a huge burden on the …

It is well known that an increase in the compressive strength of cementitious composites is
usually accompanied by a loss of tensile ductility. Designing and developing ultra-high …

This paper presents the development and performance assessment of a novel ultra-
lightweight high ductility cement composite (ULHDCC) incorporated with fly ash …

Abstract Engineered/Strain-Hardening Cementitious Composites (ECC/SHCC) are fiber-
reinforced cement-based materials with tensile strain-hardening and multiple-cracking …

The rapid development of infrastructure imposes high requirements on the performances of
building materials especially on strength and ductility. The combination of high tensile strain …

High-strength engineered cementitious composite (HS-ECC) features low water-to-binder
ratio and high-volume cement may result in time-dependent increase of matrix fracture …