Add to ORKGThe microstructural variation near surface of nano elastic materials is analyzed based on different potentials. The atomic/molecular mechanism underlying the variation and its effect on elastic modulus are such that the nature of long-range interactions (attractive or repulsive) in the atomic/molecular potentials essentially governs the variation near surface (looser or tighter) and results in two opposite size effects (decreasing or increasing modulus) with decreasing size.Physics, MultidisciplinarySCI(E)中国科技核心期刊(ISTIC)4ARTICLE12null2
Nanomaterials are now essential to fields as disparate as telecommunications, medicine, renewable en...
Nanoscience and nanotechnology are among the most widely used terms in the modern scientific and te...
Nowadays, mechanical designers and engineers of elastic structures at ultra-small scales face an int...
The microstructural variation near surface of nano elastic materials is analyzed based on different ...
The microstructural variation near surface of nano elastic materials is analyzed based on different ...
Recently, people are confused with two opposite variations of elastic modulus with decreasing size o...
Materials at nano-scale exhibit interesting behaviors in mechanical and other aspects. For instance,...
A theoretical model is presented to investigate the size-dependent elastic moduli of nanostructures ...
Effective stiffness properties (D) of nanosized structural elements such as plates and beams differ ...
Conventional Ashby plots for material selection may not appropriately describe material properties a...
Analytical studies on the size effects of a simply-shaped beam fixed at both ends have successfully ...
If materials are to be developed from the ground up, the process will be dependent upon accurate and...
A simple theory based on bond energy model is developed. The model is used to predict the size and s...
951-955A simple theory based on bond energy model is developed. The model is used to predict the siz...
The elastic constants of crystalline solids play a critical role in determining mechanical and therm...
Nanomaterials are now essential to fields as disparate as telecommunications, medicine, renewable en...
Nanoscience and nanotechnology are among the most widely used terms in the modern scientific and te...
Nowadays, mechanical designers and engineers of elastic structures at ultra-small scales face an int...
The microstructural variation near surface of nano elastic materials is analyzed based on different ...
The microstructural variation near surface of nano elastic materials is analyzed based on different ...
Recently, people are confused with two opposite variations of elastic modulus with decreasing size o...
Materials at nano-scale exhibit interesting behaviors in mechanical and other aspects. For instance,...
A theoretical model is presented to investigate the size-dependent elastic moduli of nanostructures ...
Effective stiffness properties (D) of nanosized structural elements such as plates and beams differ ...
Conventional Ashby plots for material selection may not appropriately describe material properties a...
Analytical studies on the size effects of a simply-shaped beam fixed at both ends have successfully ...
If materials are to be developed from the ground up, the process will be dependent upon accurate and...
A simple theory based on bond energy model is developed. The model is used to predict the size and s...
951-955A simple theory based on bond energy model is developed. The model is used to predict the siz...
The elastic constants of crystalline solids play a critical role in determining mechanical and therm...
Nanomaterials are now essential to fields as disparate as telecommunications, medicine, renewable en...
Nanoscience and nanotechnology are among the most widely used terms in the modern scientific and te...
Nowadays, mechanical designers and engineers of elastic structures at ultra-small scales face an int...