Add to ORKGStrength (or hardness) and toughness of micro- and nano-structured grained materials are analysed, assuming the key role played by the interfaces. A new fractal approach is developed to unify the influences on the mechanical properties of volumetric grain content, grain size and structural dimension. In particular, the finding of grain size effect on material strength represents an extension of the well-known empirical Hall-Petch law. A fractal structural parameter, representing an extension of the Gurland's structural parameter, is proposed to investigate, design and optimise new materials. An experimental comparison on Poly-Crystalline Diamond and WC/Co alloy concludes the paper
The world's perennial need for energy and microelectronic miniaturization brings with it a broad set...
The special issue presents a series of 12 contributions related to recent developments on the link b...
The power-law scaling of size effect of strength in micro-crystals is explained in terms of an assum...
Nanostructured and ultra-fine grained metals have higher strength than coarse-grained metals, but su...
Nanostructured metals have higher strength than those of the coarse grained metals but suffer from t...
The mechanical strengths of nano-scale individual crystal or nanopolycrystalline metals, and other d...
The article deals with possible applications of multi-fractal parameterization of microstructures (M...
A model was developed to describe the grain size dependence of hardness (or strength) in nanocrystal...
Size effect is the most attractive problem in nanocrystalline materials as soon as it directly answe...
Today in the age of advanced ceramic civilization, there are a variety of applications for modern ce...
Nanostructured and ultra-fine grained metals have higher strength but extremely limited ductility co...
The search for a possible correlation between fractal dimension and toughness is a topic of current ...
Abstract. Many biological materials exhibit a hierarchical structure over more than one length scale...
A mathematical model for calculating the interplanar interaction energy of diamond-like structure ce...
If materials are to be developed from the ground up, the process will be dependent upon accurate and...
The world's perennial need for energy and microelectronic miniaturization brings with it a broad set...
The special issue presents a series of 12 contributions related to recent developments on the link b...
The power-law scaling of size effect of strength in micro-crystals is explained in terms of an assum...
Nanostructured and ultra-fine grained metals have higher strength than coarse-grained metals, but su...
Nanostructured metals have higher strength than those of the coarse grained metals but suffer from t...
The mechanical strengths of nano-scale individual crystal or nanopolycrystalline metals, and other d...
The article deals with possible applications of multi-fractal parameterization of microstructures (M...
A model was developed to describe the grain size dependence of hardness (or strength) in nanocrystal...
Size effect is the most attractive problem in nanocrystalline materials as soon as it directly answe...
Today in the age of advanced ceramic civilization, there are a variety of applications for modern ce...
Nanostructured and ultra-fine grained metals have higher strength but extremely limited ductility co...
The search for a possible correlation between fractal dimension and toughness is a topic of current ...
Abstract. Many biological materials exhibit a hierarchical structure over more than one length scale...
A mathematical model for calculating the interplanar interaction energy of diamond-like structure ce...
If materials are to be developed from the ground up, the process will be dependent upon accurate and...
The world's perennial need for energy and microelectronic miniaturization brings with it a broad set...
The special issue presents a series of 12 contributions related to recent developments on the link b...
The power-law scaling of size effect of strength in micro-crystals is explained in terms of an assum...