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Khodabakhshi, F.; Kazeminezhad, M.; Kokabi; A.H. (2010), Constrained groove
pressing of low carbon steel: nano-structure and mechanical properties.
Materials
Science
and
Engineering
A
527, 4043-4049.
Kim, I.-S.; Kchoi, C.-Y.; Kang, C.-Y.; Okuda, T.; Maziasz, P.J.; Miyahara, K. (2003),
Effect of Ti and W on the mechanical properties and microstructure of 12% Cr
base mechanical-alloyed nano-sized ODS ferritic alloys.
ISIJ
International
43(10),
1640-1646.
Kim, Y.-S.; Yu, H.-S.; Shin, D.-H. (2009), Low sliding wear resistance of ultrafi ne
grained Al alloys and steel having undergone severe plastic deformation.
Intl. J.
Mater. Res.
6, 871-874.
Klueh, R.L.; Hashimoto, N.; Maziasz, P.J. (2005), Development of new nano-
particle-strengthened martensite steels.
Scripta
Materialia
53, 275-280.
Kolpakov, S.V.; Parshin, V.A.; Chekhovoi, A.N. (2007), Nanotechnology in the metal-
lurgy of steel.
Steel
in
Translation
37(8), 716-721.
Kozikowski, P.M.; Krawczynska, A.T.; Kulczyk, M.; Lewandowska, M.; Kurydlowski,
K.J. (2010), Tailoring mechanical properties of nano-structured Eurofer 97 steel
for fusion applications.
Physica
Status
Solidi
C:
Current
Topics
in
Solid
State
Physics
7(5), 1388-1390.
Kusinski, G.J.; Pollack, D. (2008), Triple-phase nano-composite steels. International
patent application PCT/US2002/040126.
Kusinski, G.J.; Pollack, D.; Thomas, G. (2004), Process for making triple-phase nano-
composite steels. US patent 6,827,797.
Kwok, C.T.; Cheng, F.T.; Man, H.C.; Ding, W.H. (2006), Corrosion characteristics of
nanostructured layer on 316L stainless steel fabricated by cavitation-annealing.
Materials
Letters
60, 2419-2422.
Kwon, O.; Lee, K.; Kim, G.; Chin, K.-G. (2010), New trends in advanced high strength
steel developments for automotive application.
Materials
Science
Forum
638-642,
136-141.
Lei, Y.; Yu, X.; Yu, S.; Liu, Z. (2007), Present status and development direction of
high performance structural material-oriented ultra-fi ne grained steel.
Journal
of
China
University
of
Petroleum
31(2), 155-162.
Lesuer, D.; Syn, C.; Sherby, O. (2010), Nano-scale strengthening from grains, sub-
grains and particles in Fe-C alloys.
Journal
of
Materials
Science
45, 4889-4894.
Li, D.; Chen, H.N.; Xu, H. (2009), The effect of nanostructured surface layer on the
fatigue behaviors of a carbon steel.
Applied
Surface
Science
255, 3811-3816.
Li, X.; Wei, Y.; Lu, W.; Lu, K.; Gao, H. (2010), Dislocation nucleation governed soft-
ening and maximum strength in nano-twinned metals.
Nature
464(8), 877-880.
Li, X.; Jing, T.F.; Lu, M.M.; Xu, R.; Liang, B.Y.; Zhang, J.W. (2011), Fatigue property
of nano-grained delaminated low-carbon steel sheet.
Journal
of
Materials
Science
and
Technology
27(4), 364-368.
Liu, G.Z.; Tao, N.R.; Lu, K. (2010), 316L austenite stainless steels strengthened by
means of nano-scale twins.
Journal
of
Materials
Science
and
Technology
26(4),
289-292.
Liu, L.; Jie, X.; Yu, N.; Mai, Y. (2009), Study on surface nano-crystallization by adding
pressure shot peening and its effect on wear resistance.
Hot
Working
Technology
38(14), 124-126.
Lo, K.H.; Shek, C.H.; Lai, J.K. (2009), Recent developments in stainless steels.
Mate-
rials
Science
and
Engineering
R
65, 39-104.
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