Durability deterioration of cementitious concrete and reinforced concrete (RC) is critical to
durability, safety, and sustainability of infrastructures, especially for offshore concrete …

FRP reinforced seawater sea sand concrete (FRP-SWSSC) combines the advantages of
corrosion-free FRP bars in the marine environment and the direct utilization of seawater and …

Increasingly shortage of river sand and fresh water has prompted the construction industry to
use seawater sea sand concrete (SSC). The construction industry selected fiber reinforced …

With increasing demand for sustainable and long-lasting materials, seawater sea-sand
engineered cementitious composite (SS-ECC) has emerged as a promising alternative to …

The effects of seawater and undesalted sea sand on the early-age hydration, mechanical
performance, water absorption, leaching behavior and hydration products of Portland …

The application of seawater-mixed concrete can effectively reduce the use of the freshwater
for concrete production. Moreover, the steel fibers added into concrete matrix can improve its …

Abstract Fiber-reinforced polymer (FRP)-concrete-steel hybrid double-skin tubular columns
(hybrid DSTCs), consisting of an outer FRP tube, an inner steel tube, and concrete infill …

The combination of geopolymer sea-sand concrete (GSSC) and basalt fiber reinforced
polymer (BFRP) reinforcement has the potential to optimally exploit the advantages of both …

This article presents an experimental study investigating the long-term shear performance of
basalt fiber–reinforced polymer (BFRP) bars wrapped in seawater–sea sand concrete (SSC) …

Ultra-high performance concrete (UHPC) integrates cutting-edge nano-additives, fibers and
cementitious materials, which is a representative heterogeneous material and exhibits …