Add to ORKGOrganic–inorganic interfaces exist in many natural or synthetic materials, such as mineral–protein interfaces found in bone and epoxy–silica interfaces found in concrete construction. Here, we report a model to predict the intrinsic strength between organic and inorganic materials, based on a molecular dynamics simulation approach combined with the metadynamics method, used to reconstruct the free energy surface between attached and detached states of the bonded system and scaled up to incorporate it into a continuum model. We apply this technique to model an epoxy–silica system that primarily features nonbonded and nondirectional van der Waals and Coulombic chemical interactions. The intrinsic strength between epoxy and silica derived from...
Mesoscale parameters, which describe the atomic interactions of the polymer-metal interface at the s...
Polyethylene is widely adopted in engineered cementitious composites to control the crack width. A c...
Interfacial transition zones (ITZs) between cement paste and aggregates is of great significance for...
We perform molecular dynamics (MD) simulation with full-atom representation to investigate the mecha...
AbstractIn this paper, the molecular dynamics (MD) simulation technique is described in the context ...
Many thermo-mechanical properties of fiber-reinforced epoxy composites strongly depend on the condit...
Biomaterials such as bone and marine exoskeletons have primarily an organic phase (e.g. tropocollage...
The mechanical behavior of interfaces between high molecular weight methacrylate (HMWM) and concrete...
Microcapsules encapsulated within epoxy as a curing agent have been successfully applied in self-hea...
In this paper, the material stiffness of amorphous/porous low-k material and interfacial strength be...
The building block of our contemporary society is built upon civil infrastructures. The materials us...
International audiencePolymer/clay nanocomposites (PCNs) are multi-functional materials that have su...
Adhesion and delamination have been pervasive problems hampering the performance and reliability of ...
Adhesion and delamination have been pervasive problems hampering the performance and reliability of ...
Persistent research effort has been devoted for decades in developing materials for the aerospace in...
Mesoscale parameters, which describe the atomic interactions of the polymer-metal interface at the s...
Polyethylene is widely adopted in engineered cementitious composites to control the crack width. A c...
Interfacial transition zones (ITZs) between cement paste and aggregates is of great significance for...
We perform molecular dynamics (MD) simulation with full-atom representation to investigate the mecha...
AbstractIn this paper, the molecular dynamics (MD) simulation technique is described in the context ...
Many thermo-mechanical properties of fiber-reinforced epoxy composites strongly depend on the condit...
Biomaterials such as bone and marine exoskeletons have primarily an organic phase (e.g. tropocollage...
The mechanical behavior of interfaces between high molecular weight methacrylate (HMWM) and concrete...
Microcapsules encapsulated within epoxy as a curing agent have been successfully applied in self-hea...
In this paper, the material stiffness of amorphous/porous low-k material and interfacial strength be...
The building block of our contemporary society is built upon civil infrastructures. The materials us...
International audiencePolymer/clay nanocomposites (PCNs) are multi-functional materials that have su...
Adhesion and delamination have been pervasive problems hampering the performance and reliability of ...
Adhesion and delamination have been pervasive problems hampering the performance and reliability of ...
Persistent research effort has been devoted for decades in developing materials for the aerospace in...
Mesoscale parameters, which describe the atomic interactions of the polymer-metal interface at the s...
Polyethylene is widely adopted in engineered cementitious composites to control the crack width. A c...
Interfacial transition zones (ITZs) between cement paste and aggregates is of great significance for...