Program of the 158th ISIJ
Meeting (September 15-17, 2009)
Discussion Sessions Only
Current Advance
in Materials and Process, Vol.22 No.2
High Temperature
Processes
Lecture No Title Page Speaker
Innovative agglomerates for low RAR operation of blast furnace
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Influence of pore
structures on reducibility and high temperature properties of agglomerates |
···718 |
H.Kawabata |
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D2 |
Reaction behavior
of innovative agglomerates consisting of iron ore in blast furnace |
···722 |
K.Higuchi |
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D3 |
Utilization of
waste wood for reduction of iron ore and carburization |
···726 |
M.Hasegawa |
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D4 |
Reaction behaviors
of carbon material with iron catalyst and its reaction rates |
···730 |
Y.Kashiwaya |
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D5 |
Properties
measurements and mathematical model development of innovative carbon iron ore
composites |
···734 |
K.Nishioka |
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D6 |
An investigation
of properties of favorable iron cokes made from low-quality coals |
···738 |
H.Aoki |
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D7 |
Preparatory
research on innovative ironmaking process Development of
carbon iron composite process |
···742 |
T.Anyashiki |
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D8 |
Effect of
decreasing thermal reserve zone temperature by innovative carbon iron
agglomerates in blast furnace |
···746 |
S.Nomura |
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D9 |
Blast furnace
simulation including simultaneous intra-particle reactions model of
carbon-iron ore composite |
···750 |
H.Nogami |
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D10 |
Estimation of
affect of using carbon iron ore composite on blast furnace operation |
···754 |
Y.Ujisawa |
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D11 |
Evaluation of
blast furnace and oxygen blast furnace process aiming at reducing CO2
emission |
···758 |
M.Sato |
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Instrumentation, Control and System
Engineering Utilization of agent technologies for
maintenance and development of the "Field Force" in steel plants |
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Field force at steel
making process-scheduling |
···994 |
T.Iwatani |
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D13 |
Agent based
operation support method for hot tandem mills |
···998 |
M.Konishi |
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D14 |
Human-Machine
collaboration for hot strip rolling mill |
···1002 |
T.Sawaragi |
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D15 |
A learning
support system for unskilled workers in charge of production planning in
steel production systems |
···1006 |
I.Hatono |
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D16 |
Agent-based
planning in iron and steel production(The 2nd report) -Relationship model
between experienced and inexperienced workers- |
···1010 |
N.Fujii |
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Processing for Quality Products Recent approach to problems originated
from oxide scale |
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Observation of scale
particles in hydraulic descaling drain |
···1064 |
H.Okada |
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D18 |
Characteristics
of scale transformation in hot rolling by vacuum rolling mill |
···1068 |
T.Suzuki |
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D19 |
Scale behaviour
and hot rolling characteristics |
···1070 |
K.Hara |
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Current
issues in HNS researches and new approaches toward problem solution |
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Nitrogen behavior
in pressurized melting |
···1123 |
T.Suzuki |
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D21 |
Continuous
manufacturing of high nitrogen steel wire by solution nitriding |
···1127 |
J.Yamaguchi |
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D22 |
A review on
corrosion properties of high nitrogen stainless steels |
···1130 |
H.Yashiro |
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D23 |
The nitriding of
stainless steels -Developments
from the 20th to the 21st century- |
···1134 |
K.Ichii |
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D24 |
Improvement of
resistance to corrosion of iron and steel by nitriding -Nitrogen ion
implantation method- |
···1138 |
T.Haruna |
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D25 |
Mechanical properties
of strength-gradient stainless steel sheets produced by solution nitriding |
···1142 |
K.Tsuboi |
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D26 |
Friction stir
welding of ultrahigh nitrogen steel containing 1.3% nitrogen |
···1145 |
Y.S.Sato |
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D27 |
Effect of heat input
on mechanical properties of high nitrogen-containing austenitic stainless
steel friction stir welds |
···1147 |
Y.Miyano |
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D28 |
Strength and
toughness of high nitrogen austenitic steels |
···1148 |
T.Tsuchiyama |
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D29 |
Hierarchical characterization
of deformation behavior in high nitrogen austenitic stainless steel |
···1152 |
M.Ojima |
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D30 |
Improvement of
deformability of Fe-25Cr-1N alloy by Cu addition |
···1156 |
T.Onomoto |
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D31 |
Difference
betweenn carbon and nitrogen behaviors in martensitic stainless steels |
···1159 |
Ngo Huynh Kinh Luan |
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D32 |
Mechanical
properties and stress corrosion cracking receptivity of metastable Cr-Mn-N
duplex stainless steels |
···1163 |
M.Fujisawa |
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D33 |
Precipitation and
surface hardening behaviors in plasma-nitriding of low-alloy steels |
···1165 |
T.Furuhara |
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Recent
developments for predicting microstructures and mechanical properties
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Estimation of
thermodynamic properties using first-principles calculations and its
application to equilibrium phase diagrams |
···1167 |
H.Ohtani |
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D35 |
Invited
Lecture
Dynamic
recrystallization at high and low temperatures |
···1168 |
H.Miura |
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D36 |
Analysis of
orientation relationship between α and γ by means of SEM/EBSD |
···1172 |
G.Miyamoto |
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D37 |
Prediction for
the sheet spacing of interphase precipitation in V added medium carbon steel |
···1174 |
T.Murakami |
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D38 |
Development of
model for predicting V(CN) precipitation behavior in hot working processes |
···1178 |
T.Senuma |
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D39 |
Modeling of phase
transformations and mechanical properties in hot-forging process |
···1180 |
K.Sugita |
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D40 |
Macro-micro
combined texture evolution model for hot strip with high reduction rolling |
···1184 |
T.Morimoto |
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D41 |
Prediction of transformation
textures in hot-rolled steel sheets by double KS relation |
···1188 |
T.Tomida |
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D42 |
The
brittle-to-ductile transition in iron single crystal and the shielding effect |
···1192 |
M.Tanaka |
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D43 |
The relationship between
microstructure and mechanical properties on Dual Phase cold-rolled steel
sheet |
···1194 |
H.Kawata |
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D44 |
In situ neutron
diffraction/4D-EBSD study on hierarchical deformation behavior in
single/mutli phase steels |
···1197 |
Y.Adachi |
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D45 |
Phase-field
simulation of microstructure changes and image-based calculation of
stress-strain curve |
···1201 |
T.Koyama |
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D46 |
Effects of
temperature, strain rate and grain size on stress-strain curves in ferritic
steels and their predictions |
···1203 |
N.Tsuchida |
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D47 |
A review of
macro-meso models of elasto-plasticity |
···1207 |
F.Yoshida |
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Material surface
characteristics and biofilm
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Physical
properties and antibacterial efficacy of chitosan/PVA blend films |
···1211 |
T.Nakashima |
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D49 |
Effects on human
skin cells of antimicrobial aluminum fabricated by anodic oxidation |
···1215 |
M.Yuguchi |
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D50 |
Measurement of
minimum bactericidal concentration of Ag+, Cu2+, Zn2+,
Mg2+, Co2+, Ni2+ and Mn2+
metallic ion for S.aureus and E.coli |
···1217 |
N.Horikawa |
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D51 |
Silver ions
induced damages to Staphylococcus
aureus observed by transmission electron microscope |
···1219 |
H.Kawakami |
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D52 |
Invited
Lecture
Microbial control
system on institutional environments |
···1223 |
S.Komemushi |
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D53 |
Influence of
steel surface morphology on biofilm formation |
···1226 |
D.Kuroda |
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D54 |
Morphological
change in steel surfaces induced by biofilm formation |
···1228 |
H.Ikegai |
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D55 |
Electrochemical
behaviors of steels in several acids simulating the environment with microbes |
···1231 |
H.Kanematsu |
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D56 |
Analysis of
artificial souring of crude oil field water |
···1233 |
Y.Tanji |
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D57 |
Analysis of
conditions inducing corrosion at the inner surface of stainless steel pipe |
···1235 |
H.Morisaki |
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D58 |
Anticorrosion effect
of Zn on microbiologically influenced corrosion by combined effects of
methane producing archaea and sulfate reducing bacteria |
···1236 |
K.Ito |
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Strength, plasticity and fracture in steels
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Challenge for the
further strengthening of steels |
···1240 |
K.Ushioda |
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D60 |
Analyzing
dislocation structures and its impacts on studies for mechanical properties |
···1244 |
K.Higashida |
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D61 |
Tensile deformation
behavior of steels studied by in situ neutron scattering and EBSD |
···1248 |
Y.Tomota |
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D62 |
Quantitative
image analysis of inhomogeneous deformation during tensile test |
···1251 |
D.Terada |
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D63 |
Recent advances
in microstructural control technologies applied for high performance
structural plates |
···1255 |
S.Mitao |
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D64 |
Mechanical
properties to be discussed in machine structural steels -In terms of
dislocations |
···1259 |
H.Yaguchi |
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D65 |
Work hardening
behaviour and dislocation patterning at large strains in sheet steel |
···1263 |
A.Uenishi |
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D66 |
The effect of
grain size on deformation properties and microstructures for
ferrite-cementite steels |
···1267 |
K.Miyata |
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|
D67 |
Possibility to
manage both high strength and large ductility in ultrafine grained steels |
···1269 |
N.Tsuji |
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Development of new analytical techniques
for characterizing material properties |
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Invited
Lecture
Development of quantum beam technology for materials
engineering
|
···1416 |
M.Imafuku |
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D69 |
In-situ XPS study
on initial oxidization behavior of Fe-based alloys |
···1420 |
N.Ohtsu |
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D70 |
Observation of
atmospheric corrosion by synchrotron radiation |
···1421 |
M.Kimura |
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D71 |
Characterization
of transformation of Green Rust to iron oxides and ferric oxyhydroxides in
aqueous solution by oxidation |
···1425 |
K.Inoue |
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D72 |
Nano and sub-nano
scale structural and elemental analysis of steels through analytical
transmission electron microscope |
···1427 |
H.Nakamichi |
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D73 |
ISIJ
Research Promotion Grant
Open-volume type
defects mapping of the deformed pure iron samples using positron probe
microanalyzer |
···1430 |
M.Fujinami |
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|
D74 |
X-ray analysis of
aging precipitation and dislocation in alloys |
···1433 |
S.Sato |
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Corrosion resistant steels contributing to
extension of the life time of steel products and technologies of corrosion
evaluation and life time prediction in actual environments
|
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Composite
electrodeposition of zinc with oxide of less-noble metals from sulfate
solutions |
···933 |
H.Nakano |
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D76 |
Electroplating of
aluminum from non aqueous solutions |
···937 |
T.Hirato |
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D77 |
Development of
new hot-dipped aluminum alloy coated steels |
···941 |
T.Tsuru |
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D78 |
Corrosion
prevention of steel by conducting polypyrrole coating |
···944 |
T.Ohtsuka |
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|
D79 |
Invited
Lecture
Corrosion
formation on chromium-free pre-coated steel sheets under different corrosive
conditions |
···948 |
S.Yamamoto |
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|
D80 |
Controlling means
for securing of unpainted weathering steel bridges |
···952 |
H.Kihira |
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|
D81 |
Development of
corrosion resistant steel plate for cargo oil tanks |
···956 |
K.Kashima |
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|
D82 |
Development of
ferritic stainless steel for hot water tanks |
···960 |
T.Adachi |
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|
D83 |
Evaluation
methods for corrosion problems |
···963 |
T.Shinohara |
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D84 |
Corrosion
prediction methods of weathering steel for bridges |
···967 |
I.Kage |
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|
D85 |
Accelerated
corrosion tests of coated steel sheets and life prediction method of
corrosion protection |
···971 |
S.Fujita |
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|
D86 |
Service life
prediction of atmospheric corrosion of steels based on the concept of
corrosive electrolyte layer formation |
···975 |
I.Muto |
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