Use of Graphene Oxide to Improve the Durability and Mechanical Properties of Mortar Immersed in Flowing River for Three Years

Abstract: Nanomaterials have received increased concentration in the field of civil engineering, as their incorporation can effectively modify the mechanical and transport properties of cementitious composites. In this study, to understand the effect of graphene oxide (GO) nanoparticles on the durability and mechanical properties of cementitious composites serving underwater, mortars incorporated with GO were taken for study. To match the real circumstance, all specimens were immersed directly in a flowing river for thr… Show more

“…Graphene oxide (GO) nanofoils, an oxidized derivative of graphene, present an extremely large, specific surface area, excellent mechanical properties, and thermal conductivity, while their surface contains a large number of active groups containing oxygen, such as hydroxyl, carboxyl, and epoxy groups [15]. Recent studies proved that graphene oxide (GO) nanofoils are highly effective for improving the mechanical properties of cement-based materials [16][17][18][19][20].…”

Properties Evolution of Some Hydraulic Mortars Incorporating Graphene Oxides

“…Graphene oxide (GO) nanofoils, an oxidized derivative of graphene, present an extremely large, specific surface area, excellent mechanical properties, and thermal conductivity, while their surface contains a large number of active groups containing oxygen, such as hydroxyl, carboxyl, and epoxy groups [15]. Recent studies proved that graphene oxide (GO) nanofoils are highly effective for improving the mechanical properties of cement-based materials [16][17][18][19][20].…”

Properties Evolution of Some Hydraulic Mortars Incorporating Graphene Oxides

A Prospective Review of Alccofine-Based Mortar with Different Nanomaterials—A Performance Evaluation Approach

Effective strategies to realize high-performance graphene-reinforced cement composites