The Effect of Structure on Mechanical and Corrosion Properties of Austenitic Steel Subjected to Neutron Irradiation
p.1119
p.1119
Investigation on Corrosion Behaviors of Ultra-Fine Grain Copper in 3.5% NaCl Solution
p.1125
p.1125
Overview on the Corrosion Behavior of Ultra-Fine Grained Materials Fabricated by Equal-Channel Angular Pressing
p.1131
p.1131
Phase Transformations and Super-Elasticity of a Ni-Rich TiNi Alloy with Ultrafine-Grained Structure
p.1137
p.1137
Status of Commercialization of Nanostructured Metals
p.1145
p.1145
Microstructural Features and Mechanical Properties after Industrial Scale ECAP of an Al 6060 Alloy
p.1153
p.1153
Development of SPD Technologies and Establishment of a Production Line for Rod-Shaped Semiproducts out of Nanostructured Titanium for Medical Application
p.1159
p.1159
Evolution of Microstructure and Mechanical Properties of Titanium Grade 4 with the Increase of the ECAP-Conform Passes
p.1165
p.1165
Interface Microstructure of Diffusion Bonded Fe3Al/Al with Ultrafine Grain Layer
p.1171
p.1171
Status of Commercialization of Nanostructured Metals
Abstract:
Nanostructured metals hold the potential to significantly augment the product portfolios of the metals industry. This potential is being progressively developed through contributions from the academic community to the underlying science of nanostructuring, increasing development and protection of intellectual property, and the involvement of large corporations. In this paper we review the trends and status of the commercialization of nanostructured metals technology, focusing on metals produced by severe plastic deformation.
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Info:
Periodical:
Materials Science Forum (Volumes 667-669)
Pages:
1145-1151
Citation:
Online since:
December 2010
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