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 …

This paper presents a critical review of existing studies on the effects of using sea-sand
and/or seawater as raw materials of concrete on the properties of the resulting concrete …

This paper presents a study on the long-term performance of basalt-and glass-fibre
reinforced polymer (BFRP/GFRP) bars in seawater and sea sand concrete (SWSSC) …

Ultra-high-performance concrete is typically defined as an advanced cementitious material
that has a compressive strength of over 150 MPa and superior durability. This article …

Natural sea sand and seawater, as alternative sustainable materials for mitigating
environmental pollution and resource shortage of traditional concrete production using river …

A new high-strength seawater and sea sand concrete (HSSC)-filled circular FRP-steel
composite tube (HFSCT) structure, consisting of an internal FRP, carbon steel tube and …

A novel type of seawater and sea sand concrete (SSC)-filled FRP-carbon steel composite
tube (SFSCT) column composed of FRP-carbon steel composite tubes and core-filled SSC …

Recently, in responding to the resource shortage and steel corrosion, the combination of
seawater and sea sand concrete (SWSSC) and fibre reinforced polymer (FRP) bars was …

Since fiber-reinforced polymer (FRP) composites possess excellent corrosion resistance,
they have great potential of use with seawater sea-sand concrete (SSC) for the construction …