ISIJ and JIM Joint Session
Current Advances in Materials and Processes, Vol.23, No.1
March 29. Room 18(JIM-R)
Titanium and titanium alloys-1
9:00-10:00 |
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J1 |
Phase transformation and
mechanical properties of Ti-Al-Nb alloys available for reversible
interconnection in
iron base composite materials |
H.Nemoto |
··· 485 |
J2 |
New precipitate in
beta-type titanium alloys due to aging |
E.Sukedai |
··· 486 |
J3 |
Isothermal aging behavior
in Ti-Mn-Fe alloy |
T.Kinoshita |
··· 487 |
Titanium and titanium alloys-2
10:00-11:00 |
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J4 |
Microstructure and
mechanical property of pure Ti compact with harmonic microstructure |
S.N.B.Ramleh |
··· 488 |
Property control of titanium
materials by spark sintering |
K.Matsugi |
··· 489 |
|
J6 |
Creep properties of
Ti-1Cu sheet at elevated temperatures |
H.Otsuka |
··· 490 |
Titanium and titanium alloys-3
11:10-12:10 |
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J7 |
Effect of cold rolling and
annealing on microstructure and mechanical properties of α+β type titanium alloy
Ti-3Al-5V |
S.Matsumoto |
··· 491 |
J8 |
Thermomechanical response
and microstructure evolution of P/M titanium alloy with a lamellar α+β
structure |
B.Liu |
··· 492 |
J9 |
Microstructure control by
thermomechanical treatment and mechanical properties in Ti-13Cr-1Fe-3Al alloys |
Y.Takasaki |
··· 493 |
Titanium and titanium
alloys-4
13:10-14:10 |
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J10 |
Effect of trace B
addition on the high-cycle fatigue property of Ti-6Al-4V alloy |
T.Kitaura |
··· 494 |
J11 |
Effects of trace TiB2 and Y2O3 additions on
fatigue properties of Ti-29Nb-13Ta-4.6Zr for biomedical applications |
H.Tsutsumi |
··· 495 |
J12 |
Design of low cost Ti-Fe
based alloys for biomedical applications |
M.Salem |
··· 496 |
Titanium and titanium
alloys-5
14:20-15:20 |
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Deformation behaviors and
microstructure after rapid heating and subsequently rapid gas cooling in α'
Ti alloys |
H.Matsumoto |
··· 497 |
|
J14 |
Microstructure and phase
decomposition of α' martensite type titanium alloys studied by transmission electron
microscopy |
K.Sato |
··· 498 |
J15 |
Tensile property and
deformation induced transformation in martensite structure of Ti-Nb alloys |
Y.Mantani |
··· 499 |
Titanium and titanium
alloys-6
15:30-16:50 |
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J16 |
Microstructures and
mechanical properties of Ti-30Zr-xMo alloys |
X.Zhao |
··· 500 |
J17 |
Changes in
microstructures and mechanical properties of Ti-29Nb-13Ta-4.6Zr through
severe plastic deformation |
H.Yilmazer |
··· 501 |
J18 |
Effect of pre-aging on
the microstructure and properties of Ti-Mo alloys subjected to high-pressure torsion |
S.Farjami |
··· 502 |
J19 |
Effects of Zr and Fe
additions on corrosion resistance and deformation mode in Ti-15Mo alloy |
X.Min |
··· 503 |
March 30. Room
16(JIM-X)
Ultrafine
grained materials–fundamental aspects for ultrafine grained structures-1
9:30-10:30 |
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J20 |
Ultrafine-grained
aluminum containing nano-alumina particles produced by high-pressure torsion |
Z.Horita
|
··· 504 |
Aging behavior of
ultra-fine grained Al-0.5%Si-0.5%Ge alloys fabricated using ARB |
K.Nakagawa |
··· 505 |
|
J22 |
Rate dependent
deformation at ambient temperature in pure Al cold-rolled to various strains |
D.Terada |
··· 506 |
Ultrafine grained materials–fundamental aspects for ultrafine grained structures-2
10:40-12:00 |
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J23 |
Characterization of
defects in aluminium severely deformed by ARB/ECAP |
Y.Takemoto |
··· 507 |
J24 |
The crystal defect in the
pure iron and the influence of the solute carbon and nitrogen exerted on this density for severe
plastic deformation by ARB |
H.Morimoto |
··· 508 |
J25 |
Harmonic microstructure
control of pure Fe and its mechanical properties |
H.Fujiwara |
··· 509 |
J26 |
Tensile deformation and fracture
behaviors of SUS304L stainless steel with a harmonic structure |
H.Kobayakawa |
··· 510 |
Ultrafine grained materials–fundamental aspects for ultrafine grained structures-3
13:00-14:20 |
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J27 |
Impact properties of an
ultrafine-grained low-carbon steel |
T.Inoue |
··· 511 |
J28 |
Impact toughness of an
ultrafine-grained steel processed by warm tempforming |
Y.Kimura |
··· 512 |
Hydrogen embrittlement of
an ultrafine-grained steel processed by warm tempforming |
Y.Nie |
··· 513 |
|
J30 |
Gigacycle fatigue
properties of an ultrafine-grained steel processed by warm tempforming |
N.Nagashima |
··· 514 |
Ultrafine grained materials–fundamental aspects for ultrafine grained structures-4
|
14:30-15:50 |
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J31 |
Microstructure
observation and texture evaluation of low alloy steel after dynamic ferrite
transformation |
P.Xu |
··· 515 |
|
|
J32 |
Nano-grain refinement process
of Fe-Ni-Co-Ti alloy by HPT-processing |
T.Furuta |
··· 516 |
|
J33 |
Microstructure and
mechanical properties of pure Cr and Nb processed by high-pressure torsion |
S.Lee |
··· 517 |
|
J34 |
Strain-induced hydride formation
in hafnium by application of high-pressure torsion |
E.Kaveh |
··· 518 |
March
30. Room 18(JIM-R)
Fundamentals
and application of microwave processing-1
9:10-10:30 |
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J35 |
Various phenomena in dehydration
of goethite by microwave-heating |
N.Yoshikawa |
···519 |
||
J36 |
Microwave E-field heating
and high temperature complex permittivity of mullite |
M.Hotta |
··· 520 |
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Applications of microwave
chemistry, and its problems and measures |
H.Fukushima |
··· 521 |
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J38 |
Dependence of heating
rate on microwave magnetic field directions |
N.Yoshikawa |
··· 522 |
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Fundamentals
and application of microwave processing-2
10:40-12:00 |
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J39 |
Microwave heating -recent studies on
physical mechanism |
M.Sato |
··· 523 |
J40 |
Sintering of Al porous
material by microwave |
M.Taguchi |
··· 524 |
J41 |
Microwave co-firing of
electrodes on electrolyte for solid oxide fuel cell |
M.Matsuda |
··· 525 |
J42 |
Relationship between
dielectric constant and density of aluminum powder compact body -measured by coaxial cable
probe method- |
S.Sano |
··· 526 |