Add to ORKGHigh strength ultrafine/nanograined aluminum materials with ultimate strength up to 740 MPa and Vickers microhardness up to 2285 MPa were produced using back pressure equal channel angular processing of ultrafine-sized aluminum powder at 400 °C. Microstructure analyses revealed that the attained high strength and microhardness were derived from the presence of nanosized aluminum and γ-alumina grains (5-10 nm) as well as residual amorphous alumina. The interaction between the severe shear deformation and the preexisting amorphous alumina, concurrent oxidation, and amorphous to γ-alumina transition was considered to be responsible for the formation of such a refined and complex nanostructure
Crystallization of amorphous alloys provides opportunities to produce bulk nanostructured materials ...
International audienceUltrafine–grained Al alloys produced by high pressure torsion are found to exh...
We report the methods increasing both strength and ductility of aluminum alloys transformed from amo...
The correlation between the microstructure and the yield strength of a specimen produced by hot isos...
A very high-purity (99.999%) aluminum was processed by equal-channel angular pressing (ECAP) at room...
Ultrafine pure Al particles were consolidated into fully dense bulk material using back pressure equ...
Micro-forming with ultrafine-grained (UFG) materials is a promising direction for the fabrication of...
Aluminum\u27s many exceptional properties promote it to be as a strong candidate for several applica...
Severe plastic deformation (SPD) based processes have shown great potential in producing bulk ultraf...
In an effort to develop high strength aluminum alloys, a near-AA5083 Al-Mg alloy powder was cryomill...
A commercial purity aluminum was heavily deformed up to an equivalent strain of 4 at various tempera...
In this paper, high-strength ultrafine-grained (UFG) pure aluminum (Al) was successfully achieved vi...
Abstract – Ultrafine-grained (UFG) materials have a potential for applications in micro-forming sinc...
Equal-channel angular pressing (ECAP) with back pressure was used to consolidate particles into bulk...
Compared to coarse grained metals, microforming or micro-milling of ultrafine grained metals leads t...
Crystallization of amorphous alloys provides opportunities to produce bulk nanostructured materials ...
International audienceUltrafine–grained Al alloys produced by high pressure torsion are found to exh...
We report the methods increasing both strength and ductility of aluminum alloys transformed from amo...
The correlation between the microstructure and the yield strength of a specimen produced by hot isos...
A very high-purity (99.999%) aluminum was processed by equal-channel angular pressing (ECAP) at room...
Ultrafine pure Al particles were consolidated into fully dense bulk material using back pressure equ...
Micro-forming with ultrafine-grained (UFG) materials is a promising direction for the fabrication of...
Aluminum\u27s many exceptional properties promote it to be as a strong candidate for several applica...
Severe plastic deformation (SPD) based processes have shown great potential in producing bulk ultraf...
In an effort to develop high strength aluminum alloys, a near-AA5083 Al-Mg alloy powder was cryomill...
A commercial purity aluminum was heavily deformed up to an equivalent strain of 4 at various tempera...
In this paper, high-strength ultrafine-grained (UFG) pure aluminum (Al) was successfully achieved vi...
Abstract – Ultrafine-grained (UFG) materials have a potential for applications in micro-forming sinc...
Equal-channel angular pressing (ECAP) with back pressure was used to consolidate particles into bulk...
Compared to coarse grained metals, microforming or micro-milling of ultrafine grained metals leads t...
Crystallization of amorphous alloys provides opportunities to produce bulk nanostructured materials ...
International audienceUltrafine–grained Al alloys produced by high pressure torsion are found to exh...
We report the methods increasing both strength and ductility of aluminum alloys transformed from amo...