ISIJ and JIM Joint Session
Current Advances in
Materials and Processes, Vol.22, No.2
September 15. Room 15(JIM-ZZ)
Titanium and titanium alloys-1
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9:00∼10:20 |
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Surface modification on titanium by laser irradiation in nitrogen atmosphere |
···1451 |
N.Ohtsu |
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J2 |
Optical
emission spectroscopic analysis of laser induced plasma for titanium surface
treatment |
···1452 |
K.Kodama |
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J3 |
Effect of cold working on material properties in martensite structure of Ti-Nb alloys |
···1453 |
Y.Mantani |
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J4 |
Effect of Y addition on corrosion resistance of Ti-Mo alloys with shape recovery function |
···1453 |
H.Kobayashi |
Titanium and
titanium alloys-2
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10:30∼11:50 |
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J5 |
Strengthening mechanism of beta Ti-15Mo alloy with alpha phase precipitation |
···1454 |
K.Tsuzaki |
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J6 |
Effects of Fe addition on tensile strength and crevice corrosion in Ti-15Mo alloy |
···1454 |
X.H.Min |
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J7 |
Change in strength of aged beta Ti-15Mo-1Fe alloy |
···1455 |
S.Emura |
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J8 |
Analysis of anomalous thermal expansion of Ti-29Nb-13Ta-4.6Zr alloy |
···1455 |
M.Nakai |
Titanium and
titanium alloys-3
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13:00∼14:40 |
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(ISIJ Research Promotion Grant)Three dimensional analysis of ω-phase in β-Ti alloys by dark field tomography |
···1456 |
M.Nishida |
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J10 |
Influence of microstructure on formability in alpha-beta Ti-Fe alloys |
···1457 |
T.Kudo |
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J11 |
Fatigue fractured surface of alpha+beta titanium alloy with acicular microstructure |
···1458 |
K.Mori |
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J12 |
Effect of oxygen hardened surface layer on fatigue properties of Ti-5Al-2Fe-3Mo with fine acicular microstructure |
···1459 |
K.Mori |
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J13 |
Decreasing of anisotropy in Ti-6Al-4V by heat treatment |
···1460 |
H.Yoneda |
Titanium and titanium alloys-4
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14:50∼16:30 |
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J14 |
Microstructure and high mechanical functionalization of α+β-type titanium alloys for next-generation air crafts |
···1460 |
S.Aki |
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J15 |
Effect of grain size on mechanical properties in commercial-purity titanium having a higher concentration of Fe |
···1461 |
H.Seto |
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J16 |
Fine grain refinement of single-phase titanium alloys by hydrogen treatment |
···1462 |
J.Nakahigashi |
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J17 |
Microstructure of hot worked Ti-6Al-4V alloy with starting structure of α' |
···1462 |
H.Matsumoto |
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J18 |
Evolution of Widmanstatten microstructure in Ti-48.5at%Al |
···1463 |
T.Sakamoto |
September 16. Room 15(JIM-ZZ)
Titanium and
titanium alloys-5
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9:00∼10:40 |
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Effect of trace B addition on hot deformation behaviors in Ti-6Al-4V alloy |
···1464 |
T.Kitaura |
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J20 |
Effect of working and heat treatment on microstructure and tensile property in Ti-13Cr-1Fe-3Al alloys |
···1465 |
A.Hirai |
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J21 |
Microstructure and tensile properties of boron added Ti-13Cr-1Fe-3Al alloys |
···1465 |
S.Yokota |
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J22 |
Mechanical properties of Ti-Cr-Al system alloys |
···1466 |
S.Sasaki |
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J23 |
Strengthening mechanism of Ti-alloys sintered with addtion of carbon nano-tube |
···1466 |
E.Sukedai |
Titanium and titanium alloys-6
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10:50∼12:30 |
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J24 |
Hot deformation behavior of PM Ti/TiC
composites |
···1467 |
B.Liu |
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J25 |
Total energy calculation of strained crystals of Ti-Nb alloys |
···1467 |
T.Yano |
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J26 |
Nanocrystallization of β-Ti alloys by high-pressure torsion |
···1468 |
S.Farjami |
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J27 |
Deformation mechanism of α' martensite Ti-V-Al alloy at room temperature |
···1468 |
Y.Kawai |
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J28 |
Effects of N addition on hardness & oxidation resistance of titanium alloys |
···1469 |
Y.Tanaka |
September 17. Room 19(JIM-D)
Ultrafine grained
materials–fundamental aspects for ultrafine grained structures-1
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10:00∼11:00 |
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Characteristics of sheared surfaces of ultra fine grain steel(3rd report) |
···1470 |
H.Kobayashi |
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J30 |
Development of compact continuous rolling
process for producing ultrafine grained steel wire |
···1471 |
S.Torizuka |
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J31 |
Shear failure of 4130 steel having different ultrafine grained structures |
···1472 |
K.T.Park |
Ultrafine grained
materials–fundamental aspects for ultrafine grained structures-2
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11:10∼11:50 |
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J32 |
Effect of Mn addition on mechanical
properties of ultrafine grained multi-phase steel sheets |
···1473 |
Y.Okitsu |
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J33 |
Dynamic collapse properties of friction stir welded high-C ultrafine grained multi-phase steel sheets |
···1474 |
N.Takaki |
Ultrafine grained
materials–fundamental aspects for ultrafine grained structures-3
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13:00∼14:00 |
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Microstructure change of ultra-low carbon steel by HPT-straining |
···1475 |
M.Kumagai |
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J35 |
Properties of bimodal harmonic microstructured materials produced by SPD-PM process |
···1476 |
H.Fujiwara |
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J36 |
Microstructure control in S45C tempared martensite steel by surface severe plastic deformation and induction heating quenching |
···1477 |
H.Nagai |
Ultrafine grained
materials–fundamental aspects for ultrafine grained structures-4
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14:10∼15:30 |
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J37 |
Characterization of defects in severely deformed pure aluminium |
···1478 |
Y.Takemoto |
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J38 |
|
···1478 |
H.Morimoto |
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J39 |
Aging behavior and mechanical property of ultrafine grained Al-1%Si alloys fabricated using ARB |
···1479 |
T.Nakano |
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J40 |
Effect of annealing and temper rolling on strain-rate dependent deformation at ambient temperature in ultrafine grained Al |
···1479 |
G.Horii |