Add to ORKGIt is difficult to know if a nano-structure has similar characteristics with bulk structure properties. Hence, this paper developed atomistic-continuum mechanics (ACM), and used the finite element method (FEM) to transfer an originally discrete atomic structure into an equilibrium continuum model. The purpose of this research is to study the Young’s modulus of copper in nano-scale structure under tensile testing and vibration loading. In this approach, the face-centered-cubic (fcc) metal bonds might be able to describe the inter-atomic forces between adjacent atoms. In short, the bond of the atomic lattice could be replaced by the spring element. The mechanical properties are discussed in terms of change in the structural size and the perce...
The material characterization of single crystalline Cu columns was numerically carried out at the su...
Nowadays the recent growing interest for nanotechnology leads us to want to understand the materials...
The transition from elastic to plastic behaviour in single crystal copper nanowires under uniaxial t...
It is difficult to know if a nano-structure has similar characteristics with bulk structure properti...
PACS. 34.20Cf { Interatomic potentials and forces. PACS. 62.20−x { Mechanical properties of solids. ...
The tension process of single crystal Cu nano–rods with different cross section shapes were simulate...
Based on the embedded atom method (EAM), a molecular dynamics (MD) simulation is performed to study ...
Based on the embedded atom method (EAM), a molecular dynamics (MD) simulation is performed to study ...
Mechanical properties of copper have been studied using effective-medium theory and Molecular-Dynam...
Based on the embedded atom method (EAM) and molecular dynamics (MD) method, in this paper, the tensi...
An extensive study of mechanical properties on the Copper nanowire is conducted in this paper. A thr...
An extensive study of mechanical properties, namely young’s modulus and yield strength, on the Coppe...
On cutting tools for high performance cutting (HPC) processes or for hard-to-cut materials an increa...
As the dimensions of a structure are decreased towards the nanometer scale, the mechanical response ...
The material characterization of single crystalline Cu columns was numerically carried out at the su...
The material characterization of single crystalline Cu columns was numerically carried out at the su...
Nowadays the recent growing interest for nanotechnology leads us to want to understand the materials...
The transition from elastic to plastic behaviour in single crystal copper nanowires under uniaxial t...
It is difficult to know if a nano-structure has similar characteristics with bulk structure properti...
PACS. 34.20Cf { Interatomic potentials and forces. PACS. 62.20−x { Mechanical properties of solids. ...
The tension process of single crystal Cu nano–rods with different cross section shapes were simulate...
Based on the embedded atom method (EAM), a molecular dynamics (MD) simulation is performed to study ...
Based on the embedded atom method (EAM), a molecular dynamics (MD) simulation is performed to study ...
Mechanical properties of copper have been studied using effective-medium theory and Molecular-Dynam...
Based on the embedded atom method (EAM) and molecular dynamics (MD) method, in this paper, the tensi...
An extensive study of mechanical properties on the Copper nanowire is conducted in this paper. A thr...
An extensive study of mechanical properties, namely young’s modulus and yield strength, on the Coppe...
On cutting tools for high performance cutting (HPC) processes or for hard-to-cut materials an increa...
As the dimensions of a structure are decreased towards the nanometer scale, the mechanical response ...
The material characterization of single crystalline Cu columns was numerically carried out at the su...
The material characterization of single crystalline Cu columns was numerically carried out at the su...
Nowadays the recent growing interest for nanotechnology leads us to want to understand the materials...
The transition from elastic to plastic behaviour in single crystal copper nanowires under uniaxial t...