Biomedical Engineering Reference
In-Depth Information
132. Song D.,
et al.
, Corrosion behavior of ultra-i ne grained industrial pure Al
fabricated by ECAP.
Transactions of Nonferrous Metals Society of China
,
2009. 19(5): p. 1065-1070.
133. Son I.-J.,
et al.
, Ef ect of equal-channel angular pressing on pitting corrosion
resistance of anodized aluminum-copper alloy.
Transactions of Nonferrous
Metals Society of China
, 2009. 19(4): p. 904-908.
134. Jiang J.,
et al.
, Improving corrosion resistance of RE-containing magnesium
alloy ZE41A through ECAP.
Journal of Rare Earths
, 2009. 27(5): p. 848-852.
135. Son I.-J.,
et al.
, Pitting Corrosion Resistance of Anodized Aluminum-Copper
Alloy Processed by Severe Plastic Deformation.
Materials Transactions
, 2008.
49(11): p. 2648-2655.
136. Balyanov A.,
et al.
, Corrosion resistance of ultra i ne-grained Ti.
Scripta
Materialia
, 2004. 51(3): p. 225-229.
137. Yamasaki T.,
et al.
, Corrosion fatigue of ultra-i ne grain copper fabricated by
severe plastic deformation.
Ultrai ne Grained Materials
II, ed. Y.T. Zhu,
et al.,
2002. 361-370.
138. Minarik P., R. Kral, and B. Hadzima, Substantially Higher Corrosion
Resistance in AE42 Magnesium Alloy through Corrosion Layer Stabilization
by ECAP Treatment.
Acta Physica Polonica A
, 2012. 122(3): p. 614-617.
139. Vraacutetnaacute J.,
et al.
, Room temperature corrosion properties of AZ31
magnesium alloy processed by extrusion and equal channel angular press-
ing.
Journal of Materials Science
, 2013. 48(13): p. 4510-16.
140. Darmiani E.,
et al.
, Corrosion investigation of Al-SiC nano-composite fab-
ricated by accumulative roll bonding (ARB) process.
Journal of Alloys and
Compounds
, 2013. 552: p. 31-39.
141. Sherif E.-S.M.,
et al.
, Ef ect of Equal-Channel Angular Pressing Passes on
the Corrosion Behavior of 1050 Aluminum Alloy in Natural Seawater.
International Journal of Electrochemical Science
, 2013. 8(1): p. 1103-1116.
142. Han X.,
et al.
, CORROSION AND PASSIVE PROPERTIES OF BULK
ULTRAFINE-GRAINED 304L STAINLESS STEEL. Acta Metallurgica
Sinica, 2013. 49(3): p. 265-270.
143. Feilong N.,
et al.
, In vitro Corrosion and Haemocompatibility of Bulk
Nanocrystalline 304 Stainless Steel by Severe Rolling.
Materials Science
Forum
, 2011. 667-669: p. 1113-18.
144. Chen G.,
et al.
, Corrosion Behavior of AISI 304 Austenitic Stainless Steel
Fabricated By Equal-Channel Angular Pressing, in
Advanced Engineering
Materials,
Pts 1-3, J.M. Zeng,
et al.
, Editors. 2011. p. 411-415.
145. Qu S.,
et al.
, Microstructural evolution and mechanical properties of Cu-Al
alloys subjected to equal channel angular pressing.
Acta Materialia
, 2009.
57(5): p. 1586-1601.
146. Lowe T.C. and R.Z. Valiev, Producing nanoscale microstructures through
severe plastic deformation. JOM 2000. 52(4): p. 27-28.
147. Semenova I.P.,
et al.
, Microstructures and mechanical behavior of ultrai ne-
grained Ti-6Al-4V alloy produced by ECAP.
Ultrai ne Grained Materials
III,
ed. Y.T. Zhu,
et al.,
2004. 463-468.