Add to ORKGEqual-channel angular pressing (ECAP) with back pressure was used to consolidate particles into bulk materials. In the present study, fully dense bulk aluminum was consolidated from nanoparticles and mixtures of nano and microparticles in varying proportions to obtain different grain size distributions. These materials were processed by ECAP for four passes at 673K with the application of a constant back pressure of 200MPa. Mechanical tests showed that hardness and strength increased significantly with increasing volume fraction of the nanoparticles while ductility decreased. Transmission electron microscopy examination and X-ray diffraction analysis showed Al nanocrystals of the order of 10nm in the material consolidated from 100% nanopart...
Severe plastic deformation (SPD) has received considerable attention for its capability to produce u...
The properties of materials are directly related to their microstructure, one quantitative measure o...
The ability to contro the mechanical of bulk nanostructured aluminium alloys through judicious selec...
Equal-channel angular pressing (ECAP) with back pressure was used to consolidate particles into bulk...
Severe plastic deformation (SPD) based processes have shown great potential in producing bulk ultraf...
Ultrafine pure Al particles were consolidated into fully dense bulk material using back pressure equ...
Mechanically milled pure aluminium particles were consolidated into bulk material using back pressur...
Severe plastic deformation (SPD) processes were used in mixing and consolidating aluminum based nano...
Mechanically milled pure aluminium powders were fabricated into bulk materials using back pressure e...
Equal-channel angular pressing (ECAP) is a processing technique capable of producing materials with ...
The correlation between the microstructure and the yield strength of a specimen produced by hot isos...
Bulk nanocrystalline aluminium spheres were produced by in situ consolidation of commercially pure a...
© 2012 Dr. Edward Wen Chiek LuiBulk nanostructured materials are solids with microstructural feature...
Cryomilled nanocrystalline Al-7.5Mg (in wt.%) powders were consolidated by high pressure torsion (HP...
Equal channel angle pressing (ECAP) of commercial purity aluminum (1050) was conducted using two pro...
Severe plastic deformation (SPD) has received considerable attention for its capability to produce u...
The properties of materials are directly related to their microstructure, one quantitative measure o...
The ability to contro the mechanical of bulk nanostructured aluminium alloys through judicious selec...
Equal-channel angular pressing (ECAP) with back pressure was used to consolidate particles into bulk...
Severe plastic deformation (SPD) based processes have shown great potential in producing bulk ultraf...
Ultrafine pure Al particles were consolidated into fully dense bulk material using back pressure equ...
Mechanically milled pure aluminium particles were consolidated into bulk material using back pressur...
Severe plastic deformation (SPD) processes were used in mixing and consolidating aluminum based nano...
Mechanically milled pure aluminium powders were fabricated into bulk materials using back pressure e...
Equal-channel angular pressing (ECAP) is a processing technique capable of producing materials with ...
The correlation between the microstructure and the yield strength of a specimen produced by hot isos...
Bulk nanocrystalline aluminium spheres were produced by in situ consolidation of commercially pure a...
© 2012 Dr. Edward Wen Chiek LuiBulk nanostructured materials are solids with microstructural feature...
Cryomilled nanocrystalline Al-7.5Mg (in wt.%) powders were consolidated by high pressure torsion (HP...
Equal channel angle pressing (ECAP) of commercial purity aluminum (1050) was conducted using two pro...
Severe plastic deformation (SPD) has received considerable attention for its capability to produce u...
The properties of materials are directly related to their microstructure, one quantitative measure o...
The ability to contro the mechanical of bulk nanostructured aluminium alloys through judicious selec...