Abstract:Graphene, with its excellent properties and unique structure, has been extensively studied in the context of modifiable cement-based materials. However, a systematic summary of the status of numerous experimental results and applications is lacking. Therefore, this paper reviews the graphene materials that improve the properties of cement-based materials, including workability, mechanical properties, and durability. The influence of graphene material properties, mass ratio, and curing time on the mechanical pr… Show more
“…The more desirable properties of Graphene for construction applications are the mechanical, thermal, and durability properties that have stirred up more research. The ability of Graphene to bond with the cementitious product has shown great promise for its utilisation in the construction industry (Li et al, 2023).…”
Section: Mechanical Physical and Thermal Properties Of Graphenementioning
confidence: 99%
“…Graphene and its derivatives have been applied in nanotechnology, biomedical, bioelectrical, and energy sectors (Geim and Novoselov, 2007), (Schwierz, 2010), (Li et al, 2019) and (Choi et al, 2013). Recent studies have shown great promise for Graphene application construction (Li et al, 2023). Graphene was successfully used to reinforce asphalt roads to increase strength and durability, reducing the maintenance cost of these roads (Jyothirmai, Kiranmai and Vagdevi, 2020).…”
Section: Application Of Graphene As a Construction Materialsmentioning
confidence: 99%
“…Graphene is a nanostructure allotrope of carbon in a two-dimensional crystalline form existing as a single layer of carbon atoms in a hexagonal lattice or several coupled layers of a honeycomb structure (Britannica, 2023). Graphene and its derivatives have found a special place in construction because of their enormous favorable properties, such as good physical and mechanical properties (Li et al, 2023), chemical resistance, and durability (Sun et al, 2021). The ability of Graphene to improve the strength of concrete for structures is highly desirable while reducing the bulkiness of concrete required.…”
Section: Introductionmentioning
confidence: 99%
“…Graphene use will reduce construction costs by producing lighter structures and reducing the materials needed to achieve the same structural properties (Asim et al, 2022). (Li et al, 2023) Graphene has desirable properties when mixed as an additive on cement-based materials. It improves the workability of concrete mechanical properties and enhances the concrete's performance in achieving the desired strength within the shortest period.…”
Section: Introductionmentioning
confidence: 99%
“…Summary of studies carried out on Graphene and its derivatives International Journal of Innovations and Interdisciplinary Research , Vol. 1, Issue 1, pp:(16)(17)(18)(19)(20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30)(31), Month: June -December 2023, Available at: https://researchbridgepublisher.com/…”
Sustainability in construction has been an everlasting global goal to reduce the emission of greenhouse gases that have had detrimental effects on the environment and negatively impacted human life in general. Graphene, a two-dimensional material exhibiting exceptionally desirable properties, has shown great potential to impact the building and construction sectors significantly. Graphene and its derivatives can easily be used as an additive in concrete-based composites (CBC) to improve their mechanical and durability properties and their safety, with prospects of fostering sustainability. This paper uses a scoping and compressive thorough mixed review approach, and this research aims to assess the endeavors in utilizing Graphene and Its derivatives in cementitious composites and to chart the perspectives found in the existing literature. The paper selected 64 articles from a pool of 576 publications based on their relevance. The comprehensive review concludes that the benefit of using Graphene and its derivatives as a reinforcement in cement composites lies in its superior ability to improve mechanical properties, including tensile strength and compressive strength, and improves durability by restricting crack initiation and expansion at the nanoscale, and enhances resistance to chloride and sulphate attacks as well as improving the safety of concrete based composites, setting it apart from traditional reinforcement methods.
“…The more desirable properties of Graphene for construction applications are the mechanical, thermal, and durability properties that have stirred up more research. The ability of Graphene to bond with the cementitious product has shown great promise for its utilisation in the construction industry (Li et al, 2023).…”
Section: Mechanical Physical and Thermal Properties Of Graphenementioning
confidence: 99%
“…Graphene and its derivatives have been applied in nanotechnology, biomedical, bioelectrical, and energy sectors (Geim and Novoselov, 2007), (Schwierz, 2010), (Li et al, 2019) and (Choi et al, 2013). Recent studies have shown great promise for Graphene application construction (Li et al, 2023). Graphene was successfully used to reinforce asphalt roads to increase strength and durability, reducing the maintenance cost of these roads (Jyothirmai, Kiranmai and Vagdevi, 2020).…”
Section: Application Of Graphene As a Construction Materialsmentioning
confidence: 99%
“…Graphene is a nanostructure allotrope of carbon in a two-dimensional crystalline form existing as a single layer of carbon atoms in a hexagonal lattice or several coupled layers of a honeycomb structure (Britannica, 2023). Graphene and its derivatives have found a special place in construction because of their enormous favorable properties, such as good physical and mechanical properties (Li et al, 2023), chemical resistance, and durability (Sun et al, 2021). The ability of Graphene to improve the strength of concrete for structures is highly desirable while reducing the bulkiness of concrete required.…”
Section: Introductionmentioning
confidence: 99%
“…Graphene use will reduce construction costs by producing lighter structures and reducing the materials needed to achieve the same structural properties (Asim et al, 2022). (Li et al, 2023) Graphene has desirable properties when mixed as an additive on cement-based materials. It improves the workability of concrete mechanical properties and enhances the concrete's performance in achieving the desired strength within the shortest period.…”
Section: Introductionmentioning
confidence: 99%
“…Summary of studies carried out on Graphene and its derivatives International Journal of Innovations and Interdisciplinary Research , Vol. 1, Issue 1, pp:(16)(17)(18)(19)(20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30)(31), Month: June -December 2023, Available at: https://researchbridgepublisher.com/…”
Sustainability in construction has been an everlasting global goal to reduce the emission of greenhouse gases that have had detrimental effects on the environment and negatively impacted human life in general. Graphene, a two-dimensional material exhibiting exceptionally desirable properties, has shown great potential to impact the building and construction sectors significantly. Graphene and its derivatives can easily be used as an additive in concrete-based composites (CBC) to improve their mechanical and durability properties and their safety, with prospects of fostering sustainability. This paper uses a scoping and compressive thorough mixed review approach, and this research aims to assess the endeavors in utilizing Graphene and Its derivatives in cementitious composites and to chart the perspectives found in the existing literature. The paper selected 64 articles from a pool of 576 publications based on their relevance. The comprehensive review concludes that the benefit of using Graphene and its derivatives as a reinforcement in cement composites lies in its superior ability to improve mechanical properties, including tensile strength and compressive strength, and improves durability by restricting crack initiation and expansion at the nanoscale, and enhances resistance to chloride and sulphate attacks as well as improving the safety of concrete based composites, setting it apart from traditional reinforcement methods.
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