Current Advances in Materials and Processes, Vol.21
| 9:10∼10:30 | ||
| J1 | (ISIJ Research Promotion Grant)
Reduction of Ti-6Al-4V by the electrolysis of molten (CaCl2+CaO) H.Sakai |
··· 694 |
| J2 | Tensile behavior and deformation structure in Ti-N alloy
T.Ando |
··· 695 |
| J3 | Effect of heat treatment on microstructure and mechanical properties in cold groove rolled α' martensite type titanium alloy K.Kodairah |
··· 696 |
| J4 | Cold workability of α' titanium alloy
H.Matsumoto |
··· 696 |
| 10:40∼12:00 | ||
| J5 | The development of alpha-beta Ti-Fe alloys with good strength-press formability balance
Development of high strength and excellent formability titanium alloys-1 Y.Itsumi |
··· 697 |
| J6 | Influence of microstructure on formability in alpha-beta Ti-Fe alloys
Development of high strength and excellent formability titanium alloys-2 T.Kudo |
··· 698 |
| J7 | Effect of initial structure on deformation behavior of a Ti-Fe alloy in the (α+β) region
B.Poorganji |
··· 699 |
| J8 | Mechanical properties and phase transformation behaviour in solution-treated Ti-5Al-2Fe-3Mo alloy
T.Kunieda |
··· 700 |
| 13:00∼14:00 | ||
| J9 | Effect of B addition on microstructure and workability in Ti-13Cr-1Fe-3Al alloys
S.Yokota |
··· 701 |
| J10 | Effect of cooling rate on mechanical properties of Ti-13Cr-1Fe-3Al alloy
M.Ogawa |
··· 702 |
| J11 | High temperature yield drop of β titanium alloy Ti-20V-4Al-1Sn and its modeling
Wang Xiaoteng |
··· 703 |
| 14:10∼15:30 | ||
| J12 | The effect of O and Zr contents on mechanical properties of Ti-Nb-Zr-O alloys
M.Yamamoto |
··· 704 |
| J13 | Effect of alloy composition on textures of Ti-Zr-Nb ternary alloys
H.Tobe |
··· 704 |
| J14 | Change of mechanical properties by cold-rolling in Ti-Zr-Nb-(O,Cr) alloy with Young's modulus
H.Kimura |
··· 705 |
| J15 | Cold workability of α' titanium alloy
Y.Shimizu |
··· 705 |
| 9:00∼10:20 | ||
| J16 | Mechanical properties of ultrafine grained dual
-phase steel sheets fabricated by a new process without severe plastic deformation(Study on nano-DP steel-1) Y.Okitsu |
··· 706 |
| J17 | Deformation analysis of ultrafine grained TRIP-aided dual
-phase steel by in situ neutron diffraction(Study on nano-DP steel-2) A.Narui |
··· 707 |
| J18 | Texture analysis of austenite before transformation in hot
-rolled steel sheets by multi pass rolling in a stable austenite region M.Wakita |
··· 708 |
| J19 | Evolution of dislocation substructures by multi pass hot rolling in a stable austenite region
K.Miyata |
··· 709 |
| 10:30∼11:50 | ||
| J20 | TEM observation of surface microstructure of cutting tip formed by drilling
T.Aiso |
··· 710 |
| J21 | Microstructures and properties of high-strength alloys severely deformed by machining
M.Tanaka |
··· 711 |
| J22 | Development of compact process for producing ultrafine grained steel wire
S.Torizuka |
··· 712 |
| J23 | Evaluation by neutron diffraction of 4N-Cu that gives ECAP processing
T.Ishibashi |
··· 713 |
| 13:00∼14:00 | ||
| J24 | Test production of steel plate with over 25mm thickness using free forging press of 3000ton-class
(Creation of ultra-fine grained steel through practical machine-1) T.Inoue |
··· 714 |
| J25 | Ultrafine grained microstructure obtained by cold-rolling and annealing for a 17Ni-0.2C martensite steel
J.H.Li |
··· 715 |
| J26 | Role of austenite in dynamic recrystallization during warm compression for a 17Ni-0.2C martensite steel studied by in situ neutron diffraction
P.G.Xu |
··· 716 |
Current Advances in Materials and Processes, Vol.21
March 27. JIM-V
Fundamentals and application of microwave processing-1
13:30∼14:30 J27
Continuous process of pig iron making by microwave heating(I)
K.Hara ··· 222 J28
Microwave heating behavior of steelmaking slag and its mineral phase
T.Ikeda ··· 223
J29
Fundamental study on recycling of valuable metals from pickling sludge in stainless steel rolling process by microwave carbo-thermal reduction
N.Yoshikawa ··· 224
Fundamentals and application of microwave processing-2
14:40∼15:40
J30
Behavior of Cr ion in alumina under millimeter-wave irradiation
Y.Makino ··· 225 J31
Some phenomena in heating of Fe3O4 by microwave irradiation
N.Yoshikawa ··· 225 J32
Dehydriding reaction of hydride by microwave heating
M.Matsuo··· 226
Fundamentals and application of microwave processing-3
15:50∼16:50
J33
Microwave heating characteristics of metallic powders by the cavity separated in E and H fields
H.Fukushima ··· 226
J34
Temperature dependency of microwave absorption behavior by copper powder
S.Sano ··· 227 J35
Microwave-heated sintering of Ni-based metallic glass powders and effect of Sn addition
Guoqiang XIE ··· 227