Civil Engineering Reference
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Detor, A.J.; Schuh, C.A. (2006), Method for producing alloy deposits and controlling
the nanostructure thereof using negative current pulsing electro-deposition, and
articles incorporating such deposits. US patent 20060272949A1.
Du, L.; Yao, S.; Xiong, M.; Liu, X.; Wang, G. (2010), Austenite grain ultrarefi nement
and the formation of nanocrystallized structure through transformation of low
carbon steels.
Materials
and
Manufacturing
Provesses
25, 26-32.
Eisenhüttenleute, V.D. (1992),
Steel: A Handbook for Materials Research and Engi-
neering. Volume 1: Fundamentals
. Springer-Verlag, New York.
Eskandari, M.; Kermanpur, A.; Najafi zadeh, A. (2009), Formation of nano-grained
structure in a 301 stainless steel using a repetitive thermal-mechanical treatment.
Materials
Letters
63, 1442-1444.
Foroozmehr, F.; Najafi zadeh, A.; Shafyei, A. (2011), Effects of carbon content on the
formation of nano/ultrafi ne grained low-carbon steel treated by martensite
process.
Materials
Science
and
Engineering
A
528, 5754-5758.
Frontán, J.; Zhang, Y.; Dao, M.; Lu, J.; Gálvez, F.; Jérusalem, A. (2012), Ballistic
performance of nanocrystalline and nanotwinned ultrafi ne crystal steel.
Acta
Materialia
60, 1353-1367.
Gonsalves, K.E.; Xiao, T.D.; Chow, G.M.; Law, C.C. (1994), Synthesis and processing
of nanostructured M50 type steel.
NanoStructured
Materials
4(2), 139-147.
Guo, A.; Misra, R.D.K.; Xu, J.; Guo, B.; Jansto, S.G. (2010), Ultrahigh strength and
low yield ratio of niobium-microalloyed 900 MPa pipeline steel with nano/ultra-
fi ne bainitic lath.
Materials
Science
and
Engineering
A
527, 3886-3892.
Hidaka, H.; Kawasaki, K.; Tsuchiyama, T.; Takaki, S. (2003), Effect of carbon on
nano-crystallization in steel during mechanical milling treatment.
Materials
Trans-
actions
44(10), 1912-1918.
Hodgson, P.; Timokhina, I.; Xiong, X.; Adachi, Y.; Beladi, H. (2011), Understanding
of the banite transformation in a nano-structured bainitic steel.
Solid
State
Phe-
nomena
172-174, 123-128.
Hosseini, S.M.; Najafi zadeh, A.; Kermanpur, A. (2011), Producing the nano/ultrafi ne
grained low carbon steel by martensite process using plane strain compression.
Journal
of
Materials
Processing
Technology
211, 230-236.
Huang, S.-J.; Semenov, V.I.; Shuster, L., Lin, P.-C. (2011), Tribological properties of
the low-carbon steels with different micro-structure processed by heat treatment
and severe plastic deformation.
Wear
271(5-6), 705-711.
Karak, S.K.; Chudoba, T.; Witczak, Z.; Lojkowski, W.; Manna, I. (2011), Development
of ultra high strength nano-Y
2
O
3
dispersed ferritic steel by mechanical alloying
and hot isostatic pressing.
Materials
Science
and
Engineering
A
528, 7475-
7483.
Kaufman, L.; Perepezko, J.H.; Hildal, K.; Farmer, J.; Day, D.; Yang, N.; Branagan, D.
(2009), Transformation, stability and Pourbaix diagrams of high performance cor-
rosion resistant (HRCRM) alloys.
CALPHAD:
Computer
Coupling
of
Phase
Diagrams
and
Thermochemistry
33, 89-99.
Kerber, S.J. (2007), Nanoparticle surface treatment. US patent 20070141370A1.
Khettabi, R.; Songmene, V.; Masounave, J.; Zaghbani, I. (2008), Understanding the
formation of nano and micro particles during metal cutting.
International
Journal
of
Signal
System
Control
and
Engineering
Application
1(3), 203-210.
Khodabakhshi, F.; Kazeminezhad, M. (2010), The effect of constrained groove press-
ing on grain size, dislocation density and electrical resistivity of low carbon steel.
Materials
and
Design
32, 3280-3286.
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