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The different salts present in seawater chemically react with concrete ingredients and change their properties. This article provides a critical review of existing research on the impact of seawater on various concrete properties. This study sums up the current knowledge of fresh properties, mechanical properties, and durability of concrete mixed and cured with seawater. Also, the research gap
The viability of using seawater in the production of concrete hollow blocks (CHB) is one of the facets investigated in this study. To create sustainable non-load bearing CHB, experimental investigation had been carried out on the utilization of eggshells and green mussel shells as partial cement replacement mixed with
The study meticulously investigates the mechanical properties and durability of concrete mixed with seawater, sea-sand, and varying percentages of UPOFA as a partial cement
The increasing demand for river sand, driven by infrastructure development, poses environmental challenges. The study aims to address the depletion of river sand by integrating sea sand as a fine aggregate in the production of Self-Compacting Concrete (SCC) through a Systematic Literature Review. Furthermore, it includes an in-depth bibliographic analysis of relevant literature using VOSviewer
In a recent study, the beneficial effects of incorporating seawater and sea sand into concrete were comprehensively reviewed. Beyond examining material properties, the investigation encompassed an evaluation of structural attributes, shedding light on the mechanical, hydration, and durability properties relative to conventional
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
The flexural strength of seawater and sea sand concrete, and sea sand concrete has been enhanced at 28 days when compared to ordinary concrete; scanning electron microscopy (SEM) analyses further confirm the notable influence of sea sand and seawater on the surface morphology and a significant difference from ordinary concrete due to the
AbstractUtilizing seawater and sea-sand for producing ultra-high performance concrete (UHPC) can substantially reduce raw materials costs and alleviate the current freshwater and river sand resources shortage in coastal and marine areas. However, the
The Philippines is a developing country that has been experiencing rapid urbanization and industrialization in recent years. As a result, the construction industry has been booming, with a high demand for building materials such as concrete. Concreting plays a crucial role in the construction process, providing a solid foundation for buildings, roads, bridges, and other infrastructure
Many efforts have been made by researchers in the last decades tounderstand the behaviour of seawater-mixed and sea sand concretes
The different salts present in seawater chemically react with concrete ingredients and change their properties. This article provides a critical review of existing research on the impact of seawater on various concrete properties. This study sums up the current knowledge of fresh properties, mechanical properties, and durability of concrete mixed and cured with seawater. Also, the research gap
The viability of using seawater in the production of concrete hollow blocks (CHB) is one of the facets investigated in this study. To create sustainable non-load bearing CHB, experimental investigation had been carried out on the utilization of eggshells and green mussel shells as partial cement replacement mixed with
The study meticulously investigates the mechanical properties and durability of concrete mixed with seawater, sea-sand, and varying percentages of UPOFA as a partial cement
The increasing demand for river sand, driven by infrastructure development, poses environmental challenges. The study aims to address the depletion of river sand by integrating sea sand as a fine aggregate in the production of Self-Compacting Concrete (SCC) through a Systematic Literature Review. Furthermore, it includes an in-depth bibliographic analysis of relevant literature using VOSviewer
In a recent study, the beneficial effects of incorporating seawater and sea sand into concrete were comprehensively reviewed. Beyond examining material properties, the investigation encompassed an evaluation of structural attributes, shedding light on the mechanical, hydration, and durability properties relative to conventional
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
The flexural strength of seawater and sea sand concrete, and sea sand concrete has been enhanced at 28 days when compared to ordinary concrete; scanning electron microscopy (SEM) analyses further confirm the notable influence of sea sand and seawater on the surface morphology and a significant difference from ordinary concrete due to the
The use of alternative and locally available materials is encouraged in the construction industry to improve its sustain‐ ability. Desert regions with shortages in freshwater and river sand as fine aggregates in concrete have to search for alternative materials such as seawater, dune sand, and waste glass powder to produce lightweight
The Philippines is a developing country that has been experiencing rapid urbanization and industrialization in recent years. As a result, the construction industry has been booming, with a high demand for building materials such as concrete. Concreting plays a crucial role in the construction process, providing a solid foundation for buildings, roads, bridges, and other infrastructure
Many efforts have been made by researchers in the last decades tounderstand the behaviour of seawater-mixed and sea sand concretes
