110.1016/B978-0-08-102476-8.00022-0Advanced Dental Biomaterials599-614United KingdomWoodhead Publishing Series in Biomaterial
Graphene oxide (GO) is the product of chemical exfoliation of graphite. Due to its good dispersibili...
Nanoparticles can accelerate cement hydration due to their high activity compacting microstructure, ...
As a major component of concrete, Portland cement has become the most consumed manmade substance. Th...
10.1080/15376494.2016.1218226Mechanics of Advanced Materials and Structures2515-161313-132
In recent years, nanoplatelets from the graphene family have been gaining more research interest in...
Bioactive calcium silicate cements are widely used to induce mineralization, to cement prosthetic pa...
Recent research indicates the possibility of using nanomaterials (carbon nanotubes, graphene, titani...
Recent research indicates the possibility of using nanomaterials (carbon nanotubes, graphene, titani...
This research investigates an emerging material - graphene - that can be used to strengthen and incr...
The proposed reinforcing mechanism and optimized dosage of pristine graphene (PRG) for enhancing mec...
In this work, graphene nanoplatelets (GNPs) were dispersed uniformly in aqueous solution using methy...
Graphene cement-based composites have become a hot topic in current research because of its superior...
Carbon-based nanomaterials are currently used to reinforce cement-based composite materials based on...
Graphene oxide (GO) is the product of chemical exfoliation of graphite. Due to its good dispersibili...
Background: The potential of graphene‑based materials to improve the physiomechanical properties of ...
Graphene oxide (GO) is the product of chemical exfoliation of graphite. Due to its good dispersibili...
Nanoparticles can accelerate cement hydration due to their high activity compacting microstructure, ...
As a major component of concrete, Portland cement has become the most consumed manmade substance. Th...
10.1080/15376494.2016.1218226Mechanics of Advanced Materials and Structures2515-161313-132
In recent years, nanoplatelets from the graphene family have been gaining more research interest in...
Bioactive calcium silicate cements are widely used to induce mineralization, to cement prosthetic pa...
Recent research indicates the possibility of using nanomaterials (carbon nanotubes, graphene, titani...
Recent research indicates the possibility of using nanomaterials (carbon nanotubes, graphene, titani...
This research investigates an emerging material - graphene - that can be used to strengthen and incr...
The proposed reinforcing mechanism and optimized dosage of pristine graphene (PRG) for enhancing mec...
In this work, graphene nanoplatelets (GNPs) were dispersed uniformly in aqueous solution using methy...
Graphene cement-based composites have become a hot topic in current research because of its superior...
Carbon-based nanomaterials are currently used to reinforce cement-based composite materials based on...
Graphene oxide (GO) is the product of chemical exfoliation of graphite. Due to its good dispersibili...
Background: The potential of graphene‑based materials to improve the physiomechanical properties of ...
Graphene oxide (GO) is the product of chemical exfoliation of graphite. Due to its good dispersibili...
Nanoparticles can accelerate cement hydration due to their high activity compacting microstructure, ...
As a major component of concrete, Portland cement has become the most consumed manmade substance. Th...
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