Program of the 159th ISIJ Meeting(March 28-30, 2010)
General Presentation Only
Current Advance in Materials and Process, Vol.23, No.1
High Temperature Processes
Lecture No. |
Title |
Speaker |
Page |
1 |
Effect of granule
structure on the combustion behavior of coke breeze 2 |
T.Nakagawa |
··· 1 |
2 |
Combustion rate of coke
in quasi-particles in the sintering process |
K.Noda |
··· 2 |
3 |
Simple solutions for the
maximum temperature and speed of steady-state heat wave |
M.Nakano |
··· 3 |
4 |
DEM analysis on particle behavior in the course of sinter mixture charging |
T.Abe |
··· 4 |
5 |
Sinter feed granulation
improvement technique by pan pelletizer |
C.Kamijo |
··· 5 |
6 |
Improvement of productivity by installing P type separate granulation process at Wakayama No.5 sintering plant |
K.Watanabe |
··· 6 |
7 |
Advance of the production
capacity at Wakayama No.5 Sintering plant |
K.Watanabe |
··· 7 |
8 |
High temperature properties
of agglomerate of return fines (Agglomeration of return fines for blast furnace raw materialsⅡ) |
T.Sato |
··· 8 |
Relation between
vibration and viscosity of castable refractories |
K.Goto |
··· 9 |
|
10 |
The effect of temperature
on static elastic modulus of MgO-C bricks |
Y.Hino |
··· 10 |
11 |
Stability of hot-metal
ladle under the low-level production |
H.Okada |
··· 11 |
12 |
Improvement of ladle
slide gate life |
H.Tokuda |
··· 12 |
13 |
Use of alumina-magnesia castable with different elastic modulus for impact pad in steel ladle |
T.Matsui |
··· 13 |
14 |
Development of anti-alumina-clogging materials characterized by reaction with molten steel |
M.Ogata |
··· 14 |
15 |
Bilayer structure nozzle for
the continuous casting with the stress release function |
A.Sasaki |
··· 15 |
(Scientific Achievement
Merit Prize)Physical chemistry of refining reaction in steelmaking |
F.Tsukihashi |
|
|
17 |
(Nishiyama Commemorative Prize)Deoxidation
equilibrium of high alloys |
T.Miki |
··· 16 |
18 |
Determination of activity
of CaS in CaS-CaF flux |
H.Tanigawa |
··· 17 |
19 |
(ISIJ Research Promotion Grant)Activity coefficient of P2O5 in solid solution of 2CaO・SiO2-3CaO・P2O5 |
S.Kitamura |
··· 18 |
20 |
Melting behavior of nickel ore in a rotary kiln for ferronickel alloys |
Y.Kobayashi |
··· 19 |
New aspect of in-process
technology by multi-field collaboration |
T.Kozuka |
··· 20 |
|
22 |
Application of ultrasound
processing to steelmaking processes |
K.Okumura |
··· 21 |
23 |
Newly developed processes
using electromagnetic fields |
K.Iwai |
··· 22 |
24 |
Formation mechanism of center-line segregation and negative segregation at center of cast bloom in bloom CC |
K.Isobe |
··· 23 |
25 |
Quality improvement of
continuously cast slab for heavy plate |
Y.Inoue |
··· 24 |
26 |
Effect of inclusion on
ultrasonic tested defects in plate |
G.Xu |
··· 25 |
The behavior of coke particles
in the course of coke split addition |
K.Katayama |
··· 26 |
|
28 |
Approach to optimize operational factor of granulation with dispersant in sinter raw mixtures |
Y.Nagaike |
··· 27 |
29 |
Reduction behavior of sinter with CO-CO2 gas mixtures near FeO-Fe reduction equilibrium point |
S.Imakura |
··· 28 |
30 |
Development of particle size distribution control technique on center feed type bunker |
A.Murao |
··· 29 |
31 |
Study of burden descending
behavior along blast furnace wall by 1/10 scale model |
M.Kadowaki |
··· 30 |
(ISIJ Young Researcher
Award)Separation and recovery of rare earth metals by molten salt
electrochemical process |
H.Konishi |
|
|
33 |
The behavior of combution
of the particles of plastics in the flame of burner |
F.Ogasawara |
··· 31 |
34 |
Laboratory investigation
on removal of copper from molten iron by sulfidation |
Y.Uchida |
··· 32 |
35 |
Oxidation removal of Cu from carbon saturated iron by using liquid immiscibility in Fe-Ag system |
K.Yamaguchi |
··· 33 |
36 |
Influence of top layer
and a tuyere configuration on mixing time in agitated ladle |
S.Kim |
··· 34 |
37 |
Control of a swirl motion
of a bubbling jet in a cylindrical vessel |
T.Fujikawa |
··· 35 |
38 |
The effect of Ca for the
reducing character of FeO during in-situ TEM experiments |
N.Ishikawa |
··· 36 |
Prevention of Al2O3 adhesion on
SEN applying electric field (Development of SEN anti-cloggingtechnology by electrochemistry-4) |
Y.Tsukaguchi |
··· 37 |
|
40 |
Labo-scale test on the
suppression of alumina inclusions adhesions on the CC immersion nozzle by
applying the electric field -Development ofSEN anti-clogging technology by electrochemistry-3- |
T.Yoshikawa |
··· 38 |
41 |
(ISIJ Research Promotion Grant)Capture of a single bubble at an orifice with different wettabilities |
S.Yokoyama |
··· 39 |
42 |
Appropriate method of preheating
submerged entry nozzle for high quality steel |
S.Takahashi |
··· 40 |
43 |
Effect of mold flux on
secondary cooling intensity in continuous casting(II) |
Y.Ito |
··· 41 |
44 |
(ISIJ Research Promotion Grant)The dynamic behavior of a mercury droplet on an inclined solid plate |
Y.Sakai |
··· 42 |
45 |
Mechanism of surface defects on steel sheet by laboratory experiment |
T.Murai |
··· 43 |
46 |
Mold powder for anti
sticking breakout |
C.Zhang |
··· 44 |
(Nishiyama Commemorative
Prize)Development of high-efficiency steelmaking process of high-purity steel |
Y.Higuchi |
··· 45 |
|
48 |
Thermodynamic study on control of non-metallic inclusion composition in SUS440A production process |
N.Satoh |
··· 46 |
49 |
(ISIJ Research Promotion Grant)Thermodynamics of aluminum and titanium deoxidation of molten steel |
K.Nakase |
··· 47 |
50 |
Phosphorus behaviors in
high MnO,FeO,and Al2O3 containing slags with low basicity |
M.K.Cho |
··· 48 |
51 |
Development of spike
nozzle by numerical simulation (Development of top lance nozzle of RH degasser-1) |
K.Hamaogi |
··· 49 |
52 |
Improvement of top lance
nozzle of RH degasser in Wakayama Steel Making Plant (Development of top lance nozzle of RH degasser-2) |
T.Sasaki |
··· 50 |
53 |
Improvement of top lance
nozzle of No.3 RH degasser in Kashima Steel making plant (Development of top lance nozzle of RH degasser-3) |
T.Endo |
··· 51 |
54 |
(Nishiyama Commemorative Prize)Mathematical
model for new refining technology |
Y.Kishimoto |
··· 52 |
55 |
Numerical analysis of
oxygen jet with particles |
M.Miyata |
··· 53 |
56 |
Improvement of
environment in EAF shop |
Y.Kawashima |
··· 54 |
57 |
Numerical simulation of
post combustion in CO-H2 mixture with O2 jet |
G.Okuyama |
··· 55 |
(Nishiyama Commemorative Prize)Development of new cokemaking technology and waste plastics recycling process using coke ovens |
K.Kato |
··· 56 |
|
59 |
Construction and
operation of Wakayama No.1 coke oven battery |
K.Suzuki |
··· 57 |
60 |
Practical use of the door
monitor system on coke oven doors |
K.Takeshita |
··· 58 |
61 |
Combustion control system
for coke oven in regard to coal moisture |
K.Tsuda |
··· 59 |
62 |
Analysis for growth
mechanism of carbon deposited on the coke oven walls |
K.Ota |
··· 60 |
63 |
Influence of oven wall
unevenness on compression of coke cake during pushing |
T.Nakagawa |
··· 61 |
64 |
Production of high strength and highly reactive coke using high-performance caking additive |
T.Shishido |
··· 62 |
65 |
Numerical model for the marine transport of coal export from Newcastle port in Australia |
T.Suzuki |
··· 63 |
Optimization of wastewater
treatment plant operation |
T.Takatsugi |
··· 64 |
|
67 |
Quantification of
structural defects of coke in three-dimension using X ray CT |
D.Anraku |
··· 65 |
68 |
Reduction measures of
coke pushing load in Oita No.3,4 coke oven batteries |
K.Irie |
··· 66 |
69 |
Effect of coal size
segregation in coal bin on dischargeing behavior of coke cake |
T.Yamamoto |
··· 67 |
70 |
Evaluation for powder
pressure of coal charge on chamber wall |
S.Miyashita |
··· 68 |
(ISIJ Research Promotion
Grant)Liquid structure analysis of binary Fe-B alloys |
A.Mizuno |
··· 69 |
|
72 |
Progress of
thermophysical properties measurements of high-temperature liquids by
electromagnetic levitation methods |
M.Watanabe |
··· 70 |
73 |
Improving electromagnetic levitation technique and its application to noncontact laser modulation calorimetry for molten Fe |
K.Sugie |
··· 71 |
74 |
Influence of static magnetic field on oscillation behavior of high-temperature melt using electromagnetic levitation |
K.Morohoshi |
··· 72 |
75 |
Calculation of thermodynamic properties for the ZnCl2-ZnO system by molecular dynamics |
N.Takahashi |
··· 73 |
76 |
Ultrasonic velocities of
molten silicate glasses |
M.Hayashi |
··· 74 |
77 |
Electric resistivitiy for
molten Sb2Te3-GeTe system
and its temperature dependence |
R.Endo |
··· 75 |
(ISIJ Young Researcher
Award)Physical property of slags and its application |
M.Nakamoto |
|
|
79 |
(ISIJ Research Promotion Grant)Effect of oxygen partial pressure on the viscosity of iron oxide containing silicate melts |
S.Sukenaga |
··· 76 |
80 |
The effect of MgO on the
viscosity in high Al2O3 containing BF
type slags |
H.Kim |
··· 77 |
81 |
Noncontact measurement of normal spectral emissivity, heat capacity and thermal conductivity of molten Ni |
H.Kobatake |
··· 78 |
82 |
Thermal conductivity measurements of solid Sb2Te3 by hot strip method |
R.Lan |
··· 79 |
83 |
Withdrawal |
|
|
84 |
Prediction of surface tension
of practical steel and its application (1) (Derivation of equation and parameters) |
T.Matsushita |
··· 81 |
85 |
Prediction of surface
tension of practical steel and its application (2) (Entrapment behavior of fine bubbles in continuous casting process) |
T.Matsushita |
··· 82 |
86 |
Extraction separation of rare earth oxide from the wastes of rare earth magnet |
O.Takeda |
··· 83 |
Dephosphorization treatment of high phosphorous iron ore by pre-reduction, mechanical crushing and screening methods |
E.Matinde |
··· 84 |
|
88 |
Effect of CO gas
concentration on reduction rate of multicomponent calcium ferrite |
D.Noguchi |
··· 85 |
89 |
High temperature
behaviors of carbon composite iron ore pellet |
S.H.Son |
··· 86 |
90 |
Influence of hydrogen on reaction behavior of coal composite iron ore hot briquettes under a blast furnace simulated condition |
T.Nakamura |
··· 87 |
91 |
Gasification reaction
behavior of coal composite iron ore hot briquettes‐II |
T.Ueno |
··· 88 |
92 |
Effect of ore properties
on the gasification rate of coke coexisted with reduced iron |
T.Murakami |
··· 89 |
93 |
Thermodynamic consideration
on solid CO2
chemical adsorbent |
R.Inoue |
··· 90 |
94 |
Adsorption and desorption
mechanism of CO2 on Li2O-TiO2 compound |
K.Sasaki |
··· 91 |
95 |
Evaluation of solid CO2 chemical
absorbent by ab-initio simulation |
S.Ueda |
··· 92 |
Effect of reformed COG injection to blast furnace on CO2 emission from ironmaking system |
Y.Kashihara |
··· 93 |
|
97 |
Influence of injecting
reformed-COG into blast furnace on reduction behavior of ores |
K.Higuchi |
··· 94 |
98 |
Analysis of particle flow and its segregation during charging at bell-less top of blast furnace under the condition of controlled chute angles by DEM |
H.Mio |
··· 95 |
99 |
Influence of blast
furnace inner volume on solid motion analyzed by DEM |
S.Igarashi |
··· 96 |
100 |
Three-dimensional gas-solid flow analysis in blast furnace by combining DEM and FVM |
S.Natsui |
··· 97 |
101 |
(Nishiyama Commemorative
Prize)Development of 3D-mathematical model for blast furnace hearth |
K.Nishioka |
··· 98 |
Micro-structure
refinement in low carbon high manganese steels through Ti-deoxidation: Austenite grain growth and decomposition |
N.Kikuchi |
··· 99 |
|
103 |
Grain refinement behavior of inversely transformed austenite grain structure of Ti added steel |
C.Murakami |
··· 100 |
104 |
Effects of Nb addition on
as-cast γ grain structure in a peritectic carbon steel |
T.Yamaguchi |
··· 101 |
105 |
Effects of Si, Al and P additions on as-cast austenite grain structure in 0.2 wt% carbon steel |
S.Kencana |
··· 102 |
106 |
Formation mechanism of
coarse columnar γ grains in as-cast 0.2%C steel |
S.Tsuchiya |
··· 103 |
107 |
Relationship between cooling
rate and initial solidification layer |
K.Tsuchida |
··· 104 |
108 |
(ISIJ Young Researcher
Award)Quantitative phase-field modeling for analysis on peritectic reaction
in carbon steel |
M.Ohno |
|
109 |
Analysis for solidified structure
in multicomponent steels by phase-field method |
R.Sugawara |
··· 105 |
110 |
(ISIJ Research Promotion Grant)Effect of the free surface on the formation of equiaxed grains in horizontal centrifugal casting |
H.Esaka |
··· 106 |
In-situ observation of
solidification of Fe-19Cr-12Ni alloy |
H.Yasuda |
··· 107 |
|
112 |
Volume change and deformation of solidifying shell due to δ/γ phase transformation during solidification of carbon steel |
H.Yasuda |
··· 108 |
113 |
Observation of non-metallic inclusions at a solid/liquid interface in a solidifying low carbon steels |
H.Shibata |
··· 109 |
114 |
Estimation of magnetic
susceptibility difference of Bismuth particles |
T.Matsuzaki |
··· 110 |
115 |
Intensification of
magnetic property of zeolite |
M.Asano |
··· 111 |
116 |
Analysis of distribution
of oxide film for magnesium cast alloy |
H.Miyahara |
··· 112 |
Social Engineering on Iron and Steel Industry/Environmental and Energy Technology
Lecture No. |
Title |
Speaker |
Page |
117 |
Evaluation of total materials requirement for the recycling of scrap steels from urban structures and infrastructures |
E.Yamasue |
··· 165 |
118 |
Rate of air blowing in
Tatara furnace |
K.Nagata |
··· 166 |
119 |
Characteristics of
hematite reduction with ammonia |
S.Hosokai |
··· 167 |
120 |
Elusion behavior of EAF stainless steel oxidizing slag in fresh water at time of serial batch elution test |
S.Yokoyama |
··· 168 |
121 |
Assessment of steel
oxidizing slag on the growth of phytoplankton |
T.Takahashi |
··· 169 |
122 |
Enhancement of C0 2 absorption in EAF slag by using stainless steel ball as grinding media |
M.N.N.Hisyamudin |
··· 170 |
123 |
Withdrawal |
|
|
Instrumentation, Control and System Engineering
Lecture No. |
Title |
Speaker |
Page |
124 |
Optimum scheduling system
for iron ore blending |
H.Kobayashi |
··· 193 |
125 |
Development of scheduling method with optimizing casting order in steel-making shop |
M.Agou |
··· 194 |
126 |
Scheduling support system
for steel-making process |
S.Fujii |
··· 195 |
127 |
(Shiraishi Commemorative
Prize)Electromagnetic field simulation technique for non-destructive testing |
H.Fujiwara |
|
128 |
Application results of
recycling control system in highmill plant |
Y.Kang |
··· 196 |
129 |
Detection of inclusions
in continuously-cast steel slabs by higher harmonics |
K.Kawashima |
··· 197 |
(Shiraishi Commemorative
Prize)Electromagnetic field application to steelmaking plant |
K.Fujisaki |
|
|
131 |
(ISIJ Research Promotion
Grant)Fault detection method based on distance from normal data crowds: statistical process control capable of coping with process nonlinearity and characteristic changes |
M.Kano |
··· 198 |
132 |
A statistical modeling and control for qualities of steel products with generalized linear model |
H.Kitada |
··· 199 |
133 |
(ISIJ Research Promotion Grant)Maintenance of model predictive control systems: where is mismatch? |
M.Kano |
··· 200 |
134 |
Dynamical model of hot rolling
process |
Y.Yamasaki |
··· 201 |
135 |
Anti-unstable on-line
control of BISRA AGC in the rolling process |
H.Jin |
··· 202 |
136 |
Development of online
diagnosis technology at oil pressure servo system |
N.Nozaki |
··· 203 |
Processing for Quality Products
Lecture No. |
Title |
Speaker |
Page |
||
137 |
Bonding of steel/steel
under low temperature and low reduction conditions |
S.Nambu |
··· 248 |
||
138 |
Mechanical property of reactive transient liquid phase bonding between Mg-Al-Zn alloy and low carbon steel |
T.Araki |
··· 249 |
||
139 |
Diffusion simulation of
liquid phase formation between ferrous high-carbon foils and steel (Transient liquid phase bonding using monophase cementite filler-1) |
K.Tanaka |
··· 250 |
||
140 |
Effect of chromium on
bonded microstructure and strength using monophase cementite filler (Transient liquid phase bonding using monophase cementite filler-2) |
H.Takamiya |
··· 251 |
||
141 |
(Mishima Medal)Innovative
developments in welding technologies for steels |
K.Yasuda |
|
||
142 |
Development of ERW steel pipe with excellent low temperature toughness of weld seam |
H.Yokoyama |
··· 252 |
||
(Scientific Achievement Merit
Prize)Models of elasto-plasticity and their applications to metal forming
simulations |
F.Yoshida |
|
|||
144 |
Biaxial tensile tests and
material modeling of 980MPa high strength steel sheet |
T.Kuwabara |
··· 253 |
||
145 |
Improvement of stretch flangeability of ultra high strength steel sheet by gradual contact punch |
K.Mori |
··· 254 |
||
146 |
Influence of forming
conditions on thickness change in spinning forming of welded steel pipe-2 (Deformation in spinning forming of welded steel pipe-3) |
K.Nishio |
··· 255 |
||
147 |
Synthesis of aluminium
alloy foaming by hybrid process |
Y.P.Kathuria |
··· 256 |
||
148 |
Effect of plastic strain on the secondary-work-embrittlement of deep drawn ferritic stainless steel sheets |
Y.Ozaki |
··· 257 |
||
149 |
Influence of microstructure on ductile damage behavior of dual phase steel |
T.Ishiguro |
··· 258 |
||
150 |
Prediction of crack occurrence in forging of steel with surface defects |
N.Yukawa |
··· 259 |
||
151 |
Influence of sheared
surface properties and induced strain on bore expanding limit |
Y.Yoshida |
··· 260 |
||
152 |
Simulation of stationary crack
in blanking by node separation method |
K.Komori |
··· 261 |
||
Dynamical similarity of
collision phenomena of droplets with a hot substrate |
H.Fujimoto |
··· 262 |
|||
154 |
Effect of water temperature on the spray cooling(3) |
M.Nakaseko |
··· 263 |
||
155 |
(Nishiyama Commemorative
Prize)Surface scale on steel and tribology |
H.Utsunomiya |
··· 264 |
||
156 |
Effect of secondry scale
on red scale formation (Prevention of red scale formation during hot rolling of steels-3) |
H.Okada |
··· 265 |
||
157 |
(Nishiyama Commemorative Prize)Development of rolling process for steel products with high accuracy and excellent properties |
Y.Sodani |
··· 266 |
||
158 |
Flatness control system
for OPL(Oita Plate Leveler) (Development of NSC intelligent mill-12) |
S.Ogawa |
··· 267 |
||
159 |
Elongation control system
of OPL (Oita Plate Leveler) (Development of NSC intelligent mill-13) |
K.Yamada |
··· 268 |
||
160 |
FEM analysis roller
leveling for plate |
T.Watanabe |
··· 269 |
||
Facilities update of wire rod mill and reheating furnace |
K.Komaki |
··· 270 |
|||
162 |
Effect of surface flaws and inclusions in wire drawing |
K.Yoshida |
··· 271 |
||
163 |
Effects of tandem pass drawing
conditions on surface gloss of Ni-plated steel wire |
M.Nakano |
··· 272 |
||
164 |
Experiment and analysis of inner fracture defect in drawing of carbon steels for machine structural use |
K.Komori |
··· 273 |
||
165 |
Effect of drawing conditions
in tandem pass drawing on drawn diameter |
S.Shirasaki |
··· 274 |
||
166 |
Rotational blade
straightening with 3 dimensional FEM analysis -Straightening for fine wireⅠ- |
M.Urabe |
··· 275 |
||
167 |
FE mesh generation technology
from photo image using digital mockup system (Development of user friendly WEB2.0/CAD/CAE platform-3) |
T.Yoshida |
··· 276 |
||
Microstructure and Properties of Materials
Lecture No. |
Title |
Speaker |
Page |
|||
168 |
Precipitation behavior and mechanical properties of conventional Ni-base superalloys at 700-800℃ |
H.Semba |
··· 305 |
|||
169 |
Creep rupture strength
properties of 0.09C-23Cr-44Ni-7W alloy |
N.Saito |
··· 306 |
|||
170 |
Effect of initial particle size of γ' phase on creep rupture property of Ni-Fe base superalloy FENIX-700 |
T.Takahashi |
··· 307 |
|||
171 |
(ISIJ Research Promotion Grant)Precipitation control and creep strength of austenitic heat-resistant steel strengthened by Laves phase |
M.Takeyama |
··· 308 |
|||
172 |
Effect of grain boundary laves phase on high temperature creep deformation of Fe-20Cr-30Ni-2Nb austenitic heat resistant steel |
I.Tarigan |
··· 309 |
|||
173 |
Development of austenitic heat-resistant steel for efficient coal fired power plant boiler |
A.Sho |
··· 310 |
|||
Microstructure of pure
iron treated by nitriding and quenching process |
G.Miyamoto |
··· 311 |
||||
175 |
In-situ observation of retained austenite during martensitic transformation of high alloy steel |
S.Zhang |
··· 312 |
|||
176 |
Tracking of lattice parameter change of austenite phase during martensitic transformation of Cr-Ni steel |
H.Terasaki |
··· 313 |
|||
177 |
Reconstruction of austenite orientation by means of EBSD and application to ausforming |
G.Miyamoto |
··· 314 |
|||
178 |
Austenite decomposition
after bainite transformation stasis |
N.Takayama |
··· 315 |
|||
179 |
Difference in deformation-induced martensitic transformation behavior between cold-rolled and cold-drawn 316 type stainless steels |
N.Nakada |
··· 316 |
|||
180 |
Aging process of high
nitrogen austenite at 473 K |
T.Koyano |
··· 317 |
|||
181 |
Effect of aluminum on the mechanical properties and phase transformation behavior of bainitic TRIP steels |
Y.Im |
··· 318 |
|||
(ISIJ Research Promotion Grant)Measurement of iron loss of non-oriented electrical steel sheet under dc-biased magnetization using helmholtz coil and open type single sheet tester |
D.Miyagi |
··· 319 |
||||
183 |
Measurement of normal flux components on lap regions of stacked grain-oriented electrical steel sheets |
H.Yamaguchi |
··· 320 |
|||
184 |
Investigation of grain
growth model |
T.Tamaki |
··· 321 |
|||
185 |
Effect of the additional
V on microstructure and crystal structure of FeCo |
Y.Nakashima |
··· 322 |
|||
186 |
Effect of aluminum content on the secondary recrystallization behaviors of grain oriented electrical steels |
C.Chen |
··· 323 |
|||
|
187 |
The relationship between
cold rolling reduction and Goss distribution along shear bands (The effect of cold rolling reduction on recrystallization along shear bands in Fe-3%Si alloy 3) |
K.Murakami |
··· 324 |
||
|
188 |
Effect of strain rate on
fracture behavior in 5%Si steel |
T.Mizuguchi |
··· 325 |
||
|
189 |
Iron loss of steel sheet with
Si gradient in the thickness direction |
T.Hiratani |
··· 326 |
||
|
(Scientific Achievement
Merit Prize)Compatible design of low environmental load and high performance |
K.Nagai |
|
|||
|
191 |
(ISIJ Research Promotion Grant)Pseudoelastic behavior of Fe 3 (Al,Ga) single crystals |
H.Yasuda |
··· 327 |
||
|
192 |
An elastic strain/stress
analysis using EBSD-Wilkinson method |
M.Ojima |
··· 328 |
||
|
193 |
A study of strain/stress partitioning among [hkl] oriented grains using scale-bridging method |
M.Ojima |
··· 329 |
||
|
Soundness of high
velocity oxygen fuel (HVOF) sprayed coatings |
K.Watanabe |
··· 330 |
|||
|
195 |
Effect of additional metals on corrosion resistance of intermetallic compound FeAl in HCl solution |
M.Tomaru |
··· 331 |
||
|
196 |
Effect of Cr contents on
corrosion resistance of intermetallic compound FeAl |
M.Tomaru |
··· 332 |
||
|
197 |
(ISIJ Research Promotion Grant)Interfacial
reactions between molten Zn-Al and Fe, Ni, Co substrate |
R.Kainuma |
··· 333 |
||
|
198 |
(Nishiyama Commemorative Prize)Development of high corrosion resistance hot-dip Zn-Al-Mg alloy coated steel sheet |
A.Andoh |
··· 334 |
||
|
199 |
(Satomi
Prize)Thermodynamics of hot dip galvanizing reactions |
S.Yamaguchi |
|
||
|
(Nishiyama Commemorative
Prize)Development of high strength steel plates by the latest TMCP |
S.Okaguchi |
··· 335 |
|||
|
201 |
(Nishiyama Commemorative
Prize)Development of high performance structural steels |
T.Ochi |
··· 336 |
||
202 |
Evaluation of carbon
concentration in M-A constituent by FE-EPMA |
T.Yokota |
··· 337 |
|
||
|
203 |
(ISIJ Research Promotion Grant)Mechanical properties of 0.2C-Si-Mn-Cr-Mo-Nb TRIP-aided bainitic ferrite steel for hot-forging |
K.Sugimoto |
··· 338 |
|
|
|
204 |
Mechanical properties of
austempered medium carbon steels |
T.Suzuki |
··· 339 |
|
|
|
205 |
Evaluation of the influence of hydrogen on axial loading fatigue properties of bainitic SUJ2 bearing steels |
N.Sakanaka |
··· 340 |
|
|
|
Topology-based
quantitative 3D characterization of microstructure |
Y.Adachi |
··· 341 |
|
||
|
207 |
Three-dimensional
visualization of pearlite spheroidization |
Y.Wang |
··· 342 |
|
|
|
208 |
Bulk texture evaluation
for steels using various neutron diffractometers |
P.Xu |
··· 343 |
|
|
|
209 |
Memory effects of transformation textures in hot-rolled steel sheets and simulation by double KS relation |
T.Tomida |
··· 344 |
|
|
|
210 |
(Nishiyama Commemorative
Prize)Recrystallisation after hot deformation in ferritic steels |
T.Takeshita |
··· 345 |
|
|
|
211 |
(ISIJ Research Promotion Grant)Effect of liquid Bi particles on microstructure evolution of single and dual-phase Fe-Mn-Al alloys |
I.Ohnuma |
··· 346 |
|
|
|
212 |
Recrystallization behavior immediately after hot rolling on ferrite region of ultra low carbon sheet steels |
K.Okuda |
··· 347 |
|
|
|
213 |
Phase-field simulation of incomplete recrystallization and subsequent microstructural evolution during intercritical annealing |
Y.Suwa |
··· 348 |
|
|
|
Effect of Mn contents on
fatigue properties of nitrided Fe-C-Mn steels |
H.Hirukawa |
··· 349 |
|
||
|
215 |
Effects of mean stress on
fatigue properties of high-strength steel |
Y.Furuya |
··· 350 |
|
|
|
216 |
Relationship between fatigue cracks and slip systems on ferrite single phase steel with huge crystal grain |
E.Sakurada |
··· 351
|
|
|
|
217 |
(ISIJ Research Promotion Grant)Fractal analysis of material fracture in scale-dependent range of fracture surface patterns |
M.Tanaka |
··· 352
|
|
|
|
218 |
Crack propagation
behavior during DWTT using a high-speed camera |
T.Fujishiro |
··· 353
|
|
|
|
219 |
Microscopic aspects of cleavage crack propagation in steel having anisotropy and their analysis by three dimensional simulation model |
K.Sugimoto |
··354
|
|
|
|
220 |
Unstable crack propagation and arrest behaviors in a hydrogen gas pipeline burst test |
S.Aihara |
··· 355
|
|
|
|
221 |
Influence of grain size
on ductile fracture toughness |
H.Qiu |
··· 356 |
|
|
|
Solubility of Fe in
Al-8.2 wt% Mg-4.8 wt% Si melt at 973 K |
Y.Kamo |
··· 357 |
|
||
|
223 |
Effects of Fe content on solidification microstructures of Al-Mg-Si alloys for hot-dip-aluminizing treatment |
S.Nagai |
··· 358 |
|
|
|
224 |
Solidification structure of Al-8.2%Mg-X%Si alloys coating layer hot-dip-aluminized onto pure-iron substrates |
H.Kawabata |
··· 359 |
|
|
|
225 |
Micro-electrochemical behaviors of Mg2Si particles of hot dipped Al-Mg-Si coated steel |
C.Kruehong |
··· 360 |
|
|
|
226 |
Electrochemical behavior
of Al-Mg-Si alloy and hot-dipped coating steel |
M.Enokida |
··· 361 |
|
|
|
227 |
Hydrogen entry into
Al-Mg-Si coated steel under wet and dry cycle condition |
Y.Kyo |
··· 362 |
|
|
|
228 |
Adhesion properties of
coating layers in hot-dipped aluminum alloy coated steel sheets -In-situ observation for interface microstructure between α-Fe matrix and Al coating by bending test in SEM- |
N.Takata |
··· 363 |
|
|
|
229 |
Adhesion properties of
coating layers in hot dip aluminum alloy coated steel sheets -The formation and fracture of the alloy layer between dual phase steel and Al-Mg-Si alloy - |
S.Kobayashi |
··· 364 |
|
|
|
Effects of stress on
hydrogen absorption properties of pure titanium |
H.Fukushima |
··· 365 |
|
||
|
231 |
Hydrogen trapping by carbon
atoms in iron |
T.Tanimoto |
··· 366 |
|
|
|
232 |
Analysis of trapping hydrogen site using artificially produced Fe/TiN multilayers Part IV |
K.Sasakawa |
··· 367 |
|
|
|
233 |
Hydrogen desorption spectra of α-Fe including carbon using thermal desorption spectrometer detected from low-temperature |
N.Abe |
··· 368 |
|
|
|
234 |
Hydrogen desorption characteristics measured by thermal desorption spectrometer programmed from low-temperature |
N.Hirashita |
··· 369 |
|
|
|
235 |
Simulation of thermal desorption analysis incorporating annihilation of trapping site |
M.Enomoto |
··· 370 |
|
|
|
Enhanced lattice defect formation and hydrogen embrittlement susceptibility of cold-drawn pearlitic steel |
T.Doshida |
··· 371 |
|
||
|
237 |
Delayed fracture susceptibility evaluation of plastic region tightened high-strength bolts |
Y.Miyakoshi |
··· 372 |
|
|
|
238 |
Hydrogen entry into Fe
under accelerated atmospheric corrosion |
S.Li |
··· 373 |
|
|
|
239 |
Effect of strength on hydrogen penetration behavior of SNCM439 steel with tensile deformation in gaseous hydrogen |
K.Takasawa |
··· 374 |
|
|
|
240 |
Visualization of hydrogen diffusion behavior by means of HMT in SCM440 steel with hydrogen gas charging |
N.Ando |
··· 375 |
|
|
|
Observation of a heat
resistant steel using orthogonal-type FIB-SEM |
T.Hara |
··· 376 |
|
||
|
242 |
Creep strength and microstructural
changes under low stresses in high Cr steel |
K.Sawada |
··· 377 |
|
|
|
243 |
(ISIJ Research Promotion Grant)Oxygen chemical potential at the growing oxide scales of Fe-Cr alloys during steam oxidation at 973 K |
A.R.Setiawan |
··· 378 |
|
|
|
244 |
Analysis of creep curve of 9Cr-W steel |
M.Tamura |
··· 379 |
|
|
|
245 |
Creep life estimation of Mod.9Cr-1Mo steel based on creep deformation analysis-2 |
F.Abe |
··· 380 |
|
|
|
246 |
Influece of tempering time on the long-term creep rupture strength in mod.9Cr-1Mo steel |
N.Komai |
··· 381 |
|
|
|
247 |
Effects of alloying elements and constituent phases on creep rupture strength of heat resistant ferritic steels |
T.Tokunaga |
··· 382 |
|
|
|
(Nishiyama Commemorative Prize)Effect of multiaxial stress on high temperature damage and fracture of heat resisting steels |
M.Tabuchi |
··· 383 |
|
||
|
249 |
Measurement of the dislocation density and microstructural analysis of HAZ in the welded joints of Gr.91 steel |
Y.Sugiyama |
··· 384 |
|
|
|
250 |
The relationship between creep strength and microstructure in mod.9Cr-1Mo steel weld joint |
K.Kubushiro |
··· 385 |
|
|
|
251 |
Effect of Ni addition on creep strength and microstructure of precipitation-strengthened 15Cr ferritic steels |
M.Shibuya |
··· 386 |
||
|
252 |
Creep strength of carbon steel exhibited by the base metal of superheater tube after 36-year exposure |
M.Okubo |
··· 387 |
||
|
Change in mechanical properties of ferritic steels with state of fine carbides distribution |
Y.Funakawa |
··· 388 |
|||
|
254 |
Interphase precipitation
of niobium carbides in low carbon steels |
R.Okamoto |
··· 389 |
||
|
255 |
Surface cracking behaviors of Cu containing steels in simulated direct hot charging process |
Y.S.Lee |
··· 390 |
||
|
256 |
(Nishiyama Commemorative Prize)Surface and microstructure control of advanced steel sheets |
T.Inazumi |
··· 391 |
||
|
257 |
Effect of V on recrystallization and transformation behaviors in cold-rolled high strength steel sheets |
H.Saito |
··· 392 |
||
|
258 |
Influence of substructure
on mechanical properties of tempered martensite |
T.Murakami |
··· 393 |
||
|
259 |
Investigation of work hardening behavior in polycrystalline ferritic steels using micro-sized specimens |
Y.Kawasaki |
··· 394 |
||
|
(Nishiyama Commemorative
Prize)Alloy design and microstructure control of high-strength low-density
steels |
I.Ohnuma |
··· 395 |
|||
|
261 |
(ISIJ Young Researcher Award)High-functionalization of mechanical property in steel by severe plastic deformation |
Y.Todaka |
|
||
|
262 |
(ISIJ Research Promotion Grant)Effect of the nucleation process of AF on mechanical properties in steels |
H.Ueda |
··· 396 |
||
|
263 |
Evaluation of boundary strength of ferrous lath martensite through a micro-bending test |
A.Shibata |
··· 397 |
||
|
264 |
Measurement of inclusion size distribution in steel by small-angle neutron scattering |
Y.Kinjo |
··· 398 |
||
|
265 |
Equilibrium phases and mechanical
properties for martensitic PH stainless steels |
T.Horiuchi |
··· 399 |
||
|
266 |
Influence of alloying
elements on discontinuous precipitation in Ni-Cr alloys |
S.Ueta |
··· 400 |
||
|
(Nishiyama Commemorative Prize)Effects of magnetic field on shape change of ferromagnetic Fe-Co particles in a Cu single crystal |
T.Fujii
|
··· 401 |
|||
|
268 |
Experimental
consideration of Cu precipitation kinetics in Cu-added steels |
J.Takahashi |
··· 402 |
||
|
269 |
Quantitative
investigation of particle strengthening of TiC in steel |
Y.Kobayashi |
··· 403 |
||
|
270 |
Effects of B for
elongation in iron and steel |
T.Yamashita |
··· 404 |
||
|
271 |
Role of Cu particles on work
hardening in Cu bearing martensitic steel |
Y.Ishihara |
··· 405 |
||
|
272 |
Dependence of Nb addition
on Cu precipitation in ferritic stainless steel |
T.Takeda |
··· 406 |
||
|
273 |
3D observation of interphase
precipitation in low carbon steel |
G.Shigesato
|
··· 407 |
||
|
274 |
Analysis of cementites
and carbon distribution by vacuum carburizing (Calculation of microstructure change in vacuum carburizing -1) |
H.Ikehata |
··· 408 |
||
|
275 |
Thermodynamic surface
condition and growth model of grain-boundary cementite (Calculation of microstructure change in vacuum carburizing-2) |
K.Tanaka |
··· 409 |
||
|
(Mishima Medal)Present status of R & D of Ni-resource-saving-type high nitrogen stainless steel and its future prospects |
Y.Katada |
|
|||
|
277 |
Fretting fatigue behavior of Ni free high nitrogen stainless steel in simulated body fluid |
N.Maruyama |
··· 410 |
||
|
278 |
Preferential dissolution
of crevice corrosion of a duplex stainless steel |
S.Aoki |
··· 411 |
||
|
279 |
Properties of lean duplex
stainless steels |
Y.Oikawa |
··· 412 |
||
|
Microstructure control of martensitic stainless steel by quenching and partitioning treatment |
T.Tao |
··· 413 |
|||
|
281 |
Effect of borron contents
on mechanical properties of austenitic stainless steels |
K.Takano |
··· 414 |
||
|
282 |
Effect of preliminary nitrogen absorption treatment on bendability of carburized SUS301L steel sheet |
M.Sawada |
··· 415 |
||
|
283 |
Effect of aging treatment on bending workability of dual phase high strength stainless steel |
N.Hirakawa |
··· 416 |
||
|
284 |
Effects of boron on oxide
scale structures of SUS310S |
T.Yoshida |
··· 417 |
||
|
285 |
TEM observation of the oxide scale of austenitic stainless steel in H2O-containing atmosphere |
Y.Nishida |
··· 418 |
||
|
286 |
Influence of Si and Ni on
475℃ embrittlement of ferritic stainless steels |
K.Kimura |
··· 419 |
||
|
287 |
Influence of Nb on high
temperature strength of ferritic stainless steels |
N.Kanno |
··· 420 |
||
|
288 |
Surface hardening behavior of SUS316L by low-temperature solid carburizing with C60 |
K.Yoshimi |
··· 421 |
||
|
(Asada Medal)Evaluation of mechanical properties of structural materials at cryogenic temperatures and/or high pressure hydrogen conditions |
T.Ogata |
|
|||
|
290 |
Tensile ductility and deformation mode of an Fe-17Mn-0.3C alloy |
M.Koyama |
··· 422 |
||
|
291 |
(ISIJ Research Promotion Grant)Effect of temperature on stress-induced transformation and uniform elongation in a metastable austenitic steel |
N.Tsuchida |
··· 423 |
||
|
292 |
(Shiraishi Commemorative
Prize)Fracture behavior of Al-Si steel with unique weld bond toughness |
H.Qiu |
|
||
|
293 |
Effect of shapes variations on stretch flange formability of high tensile strength steel sheets |
S.Fujinaka |
··· 424 |
||
|
294 |
Effect of processing
condition of burring in TRIP sheet steels |
A.Nagasaka |
··· 425 |
||
|
295 |
Microstructural factors describing
the plastic deformation of TRIP/TWIP steels |
Z.Xin |
··· 426 |
||
|
Effect of fluorescent pigments in paint film on reflection of pre-painted steel sheets |
M.Takahashi |
··· 427 |
|||
|
297 |
Effect of Cu-Zn plating properties
on steel cord and natural rubber adhesion |
Y.Murakami |
··· 428 |
||
|
298 |
Factors influencing the
electro-magnetic shielding property of coated steel sheets |
R.Kaneko |
··· 429 |
||
|
299 |
(ISIJ Research Promotion Grant)Electrochemical behavior of model metal interface with solution flow type micro-droplet cell |
M.Sakairi |
··· 430 |
Process Evaluation and Material Characterization
Lecture No. |
Title |
Speaker |
Page |
300 |
Quantitative mapping of solidification structure in steel by electron probe microanalyzer |
T.Matsushima |
··· 469 |
301 |
Oxide thickness measurement
by SEM with controlling ultra-low voltage |
M.Nagoshi |
··· 470 |
302 |
Three dimensional structure analysis with automatic 3D-EBSD by FE-SEM/FIB integration system |
A.Taniyama |
··· 471 |
303 |
Advantages of low voltage
SEM with TES-EDS in steel analysis |
H.Noro |
···472 |
Detection of trace amounts of boron in steel by low energy O 2+ beam assisted FIB-TOF-SIMS |
S.Hayashi |
··· 473 |
|
305 |
Bias voltage dependence of strain on the STM image ofFe 0.94O(001) single crystal surface |
T.Fujii |
··· 474 |
306 |
(ISIJ Research Promotion Grant)Open-volume type defects mapping of the deformed iron and iron-copper samples using positron probe microanalyzer |
M.Fujinami |
··· 475 |
307 |
The engineering materials
diffractometer TAKUMI of J-PARC (Present status and possibilities) |
S.Harjo |
··· 476 |
308 |
Correlation between
excited states of nitrogen and chemical state of nitrided iron |
S.Sato |
··· 477 |
309 |
Nitriding of iron surface using microwave induced nitrogen plasma at atmospheric pressure |
Y.Arai |
··· 478 |
310 |
(ISIJ Research Promotion Grant)Characteristics of calibration curves for binary alloy samples in low-pressure laser-induced atomic emission spectrometry |
K.Wagatsuma |
··· 479 |
The comparison of
cytotoxicity of different types of eluted slags: electric arc furnace oxidizing slag and normal steel slag |
A.Ogawa |
··· 480 |
|
312 |
Investigation of dissolution
behavior of BOF slag components to ethylene glycol |
M.Inose |
··· 481 |
313 |
Solubility of free lime in ethyleneglycol |
N.Uehara |
··· 482 |
314 |
Separation and determination of zirconium carbide in Zr55Al10Ni5Cu30 bulk metallic glass matrix composites containing ZrC particles |
M.Ishikuro |
··· 483 |
315 |
Three dimensional observation of cross-section of fine non-metallic inclusion particle in steel |
K.Tomoda |
··· 484 |