ISIJ and JIM Joint Session
Current Advance in Materials and Process, Vol.20, No.6
September 19. Room JIM-E
Ultrafine grained materials-fundamental aspects for ultrafine grained structures-1
13:00∼13:20 | ||
J1 | Microstructure of various metals deformed by shape-unchanged HPT giant-straining
Y.Todaka |
··· 1384 |
13:20∼13:40 | ||
J2 | Microstructure and mechanical properties in pure Ti produced by HPT-straining and heating
J.Sasaki |
··· 1384 |
13:40∼14:00 | ||
J3 | High-strength and large-elongation of submicro-crystalline bulk pure Fe produced by HPT-straining
M.Yoshii |
··· 1385 |
Ultrafine grained materials-fundamental aspects for ultrafine grained structures-2
14:10∼14:30 | ||
J4 | Distributions of strain, microstructure and hardness in ultrafine-grained steel bars fabricated by warm caliber rolling
T.Inoue |
··· 1386 |
14:30∼14:50 | ||
J5 | Toughening of 1500MPa-class medium-carbon low-alloy steel through tempforming at elevated temperature Y.Kimura |
··· 1387 |
Ultrafine grained materials-fundamental aspects for ultrafine grained structures-3
15:00∼15:20 | ||
J6 | (ISIJ Research Promotion Grant)
Mechanical property of ultra fine grained dual phase steels fabricated by thermo-mechanical treatment starting from martensite structure N.Takata |
··· 1388 |
15:20∼15:40 | ||
J7 | Mechanical properties of ultrafine grained ferritic steel sheets fabricated by a new process without severe plastic deformation
Y.Okitsu |
··· 1389 |
15:40∼16:00 | ||
J8 | Dynamic collapse property of ultrafine grained ferritic steel sheets
Y.Okitsu |
··· 1390 |
Ultrafine grained materials-fundamental aspects for ultrafine grained structures-4
16:10∼16:30 | ||
J9 | Microstructure of pure metal powder processed by mechanical milling at cryogenic temperature
E.Oda |
··· 1390 |
16:30∼16:50 | ||
J10 | Grain refinement of high purity copper using bulk-HPT
T.Nakamura |
··· 1391 |
September 20.Room JIM-E
Ultrafine grained materials-fundamental aspects for ultrafine grained structures-5
10:00∼10:20 | ||
J11 | Behavior of aging prescription of an ECAP machined Al-Ag alloy
T.Fujioka |
··· 1391 |
10:20∼10:40 | ||
J12 | Strengthening of 7075 Al alloy using ECAP and subsequent aging
H.Okazaki |
··· 1392 |
10:40∼11:00 | ||
J13 | Ductility associated with grain refinement of high purity aluminum after processing by severe plastic deformation
Y.Ito |
··· 1392 |
11:00∼11:20 | ||
J14 | Temperature effect on strain-induced grain formation in 2219 aluminum alloy during ECAP
I.Mazurina |
··· 1393 |
Ultrafine grained materials-fundamental aspects for ultrafine grained structures-6
13:00∼13:20 | ||
J15 | Magnetic properties of Cu-6.5mass%Co alloy after processing by ECAP
K.Suehiro |
··· 1393 |
13:20∼13:40 | ||
J16 | Formation of nano-domains by irradiation of high frequency magnetic field at 2.45GHz
M.Sato |
··· 1394 |
13:40∼14:00 | ||
J17 | Continuous warm large strain rolling for producing ultrafine grained steel wire
S.Torizuka |
··· 1395 |
Ultrafine grained materials-fundamental aspects for ultrafine grained structures-7
14:10∼14:30 | ||
J18 | Bulk mechanical alloying during severe plastic deformation for diffusion couple of different metal combinations
T.Nakamura |
··· 1396 |
14:30∼14:50 | ||
J19 | High-pressure torsion using ring-shape specimen
Y.Harai |
··· 1396 |
Ultrafine grained materials-fundamental aspects for ultrafine grained structures-8
15:00∼15:20 | ||
J20 | Grain-refinement of C-Mn steel by ultra-fast cooling after hot-rolling in a stable austenite region (Part3)
M.Yoshida | ··· 1397 |
15:20∼15:40 | ||
J21 | Estimation of accumulative roll-bonded IF steel by neutron diffraction
H.Igari |
··· 1398 |
15:40∼16:00 | ||
J22 | Atomic simulations on the grain subdivision mechanism by severe plastic deformation
T.Shimokawa |
··· 1398 |
Ultrafine grained materials-fundamental aspects for ultrafine grained structures-9
16:10∼16:30 | ||
J23 | Mechanical properties of metastable austenitic steels with ultrafine grained structures
T.Maekawa |
··· 1399 |
16:30∼16:50 | ||
J24 | High speed tensile properties of 31%Mn-3%Al-3%Si(TWIP) steel with fine grained structure
R.Ueji |
··· 1400 |
September 20.Room12(JIM-Y)
Titanium and titanium alloys-1
9:00∼9:20 | ||
J25 | Evaluation of fatigue crack propagation life in α titanium alloys
M.Hamada |
··· 1401 |
9:20∼9:40 | ||
J26 | Restraint of ambient temperture creep in α-Ti by pre-strain
T.Kameyama |
··· 1402 |
9:40∼10:00 | ||
J27 | Stamping simulation for titanium sheets
Y.Itami |
··· 1403 |
10:00∼10:20 | ||
J28 | Diffusion bonding of titanium and aluminium alloys
T.Murakami |
··· 1404 |
Titanium and titanium alloys-2
10:30∼10:50 | ||
J29 | Phase constitution and mechanical properties of Ti-Sn alloys containing 3d transition metal elements
K.Kasuya |
··· 1404 |
10:50∼11:10 | ||
J30 | Microstructure and mechanical properties of α' martensite Ti alloys after shape rolling and drawing
K.Kodaira |
··· 1405 |
11:10∼11:30 | ||
J31 | The effect of heat treatment on mechanical properties in Ti-V-Al alloy
H.Matsumoto |
··· 1405 |
11:30∼11:50 | ||
J32 | Martensite Ti-V-Al alloy with low Young's modulus and high strength
F.Genjima |
··· 1406 |
11:50∼12:10 | ||
J33 | Effect of cold working on internal friction and Young's modulus of Ti-6Al-2Sn-4Zr-6Mo alloy
Y.Mantani |
··· 1406 |
Titanium and titanium alloys-3
13:00∼13:20 | ||
J34 | The effect of Al content on phase constitution and heat treatment behavior of Ti-13mass%Cr-Al alloys
M.Ikeda |
··· 1407 |
13:20∼13:40 | ||
J35 | The effect of Zr on the β-phase stability of β-type Ti alloys
Mohamed Abedel-Hady |
··· 1407 |
13:40∼14:00 | ||
J36 | Orientation dependence of mechanical properties of gum metal
Y.Nii |
··· 1408 |
14:00∼14:20 | ||
J37 | Effect of texture on mechanical properties of Ti-Zr-Nb ternary alloys
H.Tobe |
··· 1408 |
Titanium and titanium alloys-4
14:30∼14:50 | ||
J38 | Elastic behavior of Ti-Nb-Ta-Zr-O system alloys with various Nb and O contents
T.Ono |
··· 1409 |
14:50∼15:10 | ||
J39 | Development of β type titanium alloy showing high strength with cold workability
S.Matsumoto |
··· 1410 |
15:10∼15:30 | ||
J40 | High temperature plastic behavior of β titanium alloy Ti-20V-4Al-1Sn
R.Yamauchi |
··· 1411 |
Current Advance in Materials and Process, Vol.20, No.4
September20.Room3(JIM-Z)
Fundamentals and application of microwave processing-1
13:20∼14:00
J41
(Keynord Lecture)
Numerical modelling to determine influence of microwave treatment on strength reduction in ores
Sam Kingman
··· 928 14:00∼14:20
J42
Upgrading of BF slags by microwave-hydrothermal reaction
Soon-Jae Tae
··· 929
Fundamentals and application of microwave processing-2
14:30∼14:50
J43
Microwave heating of Cu powders
T.Honbo
··· 930 14:50∼15:10
J44
Fabrication of glass/metal composite material using microwave heating and Al/SiO2 reaction
N.Yoshikawa··· 930 15:10∼15:30
J45
Fundamental study on Cr recycling from pickling sludge of stainless steel by microwave-heated carbon reduction
N.Yoshikawa
··· 931