Add to ORKGNanocrystalline microstructures with a high fraction of intermetallic phases were synthesized in a series of Al based systems, Al–X–Zr (X = Si, Cu, Ni) by using rapid solidification processing. The intermetallic phases and the nano scaled grains both contribute to the very high hardness values, up to 5GPa, for the as melt spun ternary alloys. The ternary Zr additions were found to achieve an increase in the hardness at least two times that of the corresponding binary eutectics, and nearly five times that of coarse grained Al. Several mechanisms of strengthening tend to operate simultaneously in such multiphase fine grained materials. An estimate of the different contributions to the strength via an analysis of their hardness, reveals that t...
Three different processing routes were explored to develop Al-Zr nanocomposite alloys using mechanic...
Three different processing routes were explored to develop Al-Zr nanocomposite alloys using mechanic...
Nanocomposite Al-based alloys can be obtained with a combination of amorphous, crystalline and quasi...
Nanocrystalline microstructures with a high fraction of intermetallic phases were synthesized in a s...
Nanocrystalline microstructures were synthesised in the Al–Si–Zr system, by using a combination of r...
Rapid solidification of a ternary Al-Cu-Zr alloy results in a nanocomposite microstructure. In this ...
A major difference between coarse-grained materials and nanocrystalline materials is the volume frac...
We report here successful synthesis of Al-based nanocomposites with L12–Al3Ti particles in binary Al...
An investigation of the mechanical properties of nanocrystalline Al-Zr alloy composites has been con...
We report here successful synthesis of Al-based nanocomposites with L12-Al3Ti particles in binary Al...
Al-based binary (Al-Mg) and ternary (Al-Mg-Zr) elemental powder mixtures were mechanically alloyed t...
Al-based binary (Al-Mg) and ternary (Al-Mg-Zr) elemental powder mixtures were mechanically alloyed t...
Nanocrystalline L1<sub>2</sub>-Al<sub>3</sub> (Ti, Zr) intermetallic has been synthesized directly b...
The strengthening of metals is essentially controlled by the microstructures of the metal solids and...
The paper reports a detailed investigation on the microstructure evolution during rapid solidificati...
Three different processing routes were explored to develop Al-Zr nanocomposite alloys using mechanic...
Three different processing routes were explored to develop Al-Zr nanocomposite alloys using mechanic...
Nanocomposite Al-based alloys can be obtained with a combination of amorphous, crystalline and quasi...
Nanocrystalline microstructures with a high fraction of intermetallic phases were synthesized in a s...
Nanocrystalline microstructures were synthesised in the Al–Si–Zr system, by using a combination of r...
Rapid solidification of a ternary Al-Cu-Zr alloy results in a nanocomposite microstructure. In this ...
A major difference between coarse-grained materials and nanocrystalline materials is the volume frac...
We report here successful synthesis of Al-based nanocomposites with L12–Al3Ti particles in binary Al...
An investigation of the mechanical properties of nanocrystalline Al-Zr alloy composites has been con...
We report here successful synthesis of Al-based nanocomposites with L12-Al3Ti particles in binary Al...
Al-based binary (Al-Mg) and ternary (Al-Mg-Zr) elemental powder mixtures were mechanically alloyed t...
Al-based binary (Al-Mg) and ternary (Al-Mg-Zr) elemental powder mixtures were mechanically alloyed t...
Nanocrystalline L1<sub>2</sub>-Al<sub>3</sub> (Ti, Zr) intermetallic has been synthesized directly b...
The strengthening of metals is essentially controlled by the microstructures of the metal solids and...
The paper reports a detailed investigation on the microstructure evolution during rapid solidificati...
Three different processing routes were explored to develop Al-Zr nanocomposite alloys using mechanic...
Three different processing routes were explored to develop Al-Zr nanocomposite alloys using mechanic...
Nanocomposite Al-based alloys can be obtained with a combination of amorphous, crystalline and quasi...