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•½¬14”N3ŒŽ@“ú–{“S|‹¦‰ïàV‘º˜_•¶ÜiDesulfurization of Molten Iron with Magnesium Vapor Produced
In-situ by Carbothermic Reduction of Magnesium Oxidej
•½¬19”N3ŒŽ@“ú–{“S|‹¦‰ïàV‘º˜_•¶ÜiMorphology Control of Copper Sulfide in Strip Casting of Low
Carbon Steelj
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•½¬ 9”N3ŒŽ “ú–{“S|‹¦‰ï¼ŽR‹L”OÜiÞ—¿»‘¢ƒvƒƒZƒX‚Ì”Šw“Iƒ‚ƒfƒ‹‚ÉŠÖ‚·‚錤‹†j
•½¬19”N3ŒŽ “ú–{“S|‹¦‰ïŠwpŒ÷ÑÜi‘fÞ»‘¢ƒvƒƒZƒX‚Ì”½‰žHŠw“IŒ¤‹†j
•½¬19”N9ŒŽ@“ú–{‹à‘®Šw‰ï‘æ5‰ñŠwpvŒ£Ü@
iƒOƒ‹[ƒvŒ¤‹†Üi“ú–{“S|‹¦‰ïŽR‰ªÜjj
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•½¬ 7”N3ŒŽ »‘L‹ZpŒŸ“¢‰ï
•½¬17”N3ŒŽ ŠvV“I‚Œø—¦¬‡E•ª—£ƒŠƒAƒNƒ^[‘noŒ¤‹†‰ï
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“ú–{“S|‹¦‰ïA“ú–{‹à‘®Šw‰ïA‰»ŠwHŠw‰ïA“ú–{AEMŠw‰ïA“ú–{MRS, Ž‘Œ¹‘fÞŠw‰ïAInstitute of PhysicsATMS(USA)AAIST(USA).
Œ¤‹†Žºlˆõ
Šw•”Šw¶4lA”ŽŽm‘OŠú‰Û’ö9lAŠO‘l“Á•ÊŒ¤‹†ˆõ‚PlAŠO‘lŽó‘õŒ¤‹†ˆõ1lD
ŽÐ‰ïŠˆ“®—ð(Social@Activitiesj
| 1@Šw‹¦‰ï–ðˆõ“™iAcademic@Societiesj |
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| 2007 | “ú–{“S|‹¦‰ï‘æ15‰ñ“S|HŠwƒAƒhƒoƒ“ƒXƒgƒZƒ~ƒi[uŽti»‘LƒR[ƒXj |
| 2006.10.1`2007.9.30 | “ú–{“S|‹¦‰ïˆç¬ˆÏˆõ‰ïˆÏˆõi“S|HŠwƒZƒ~ƒi[WGŽå¸j |
| 2005`2007 | “ú–{“S|‹¦‰ï“S|HŠwƒZƒ~ƒi[uŽti»‘LƒR[ƒXƒŠ[ƒ_[A”½‰ž‘¬“x˜_i»‘L¥»|‹¤’ÊjAˆÚ“®‘¬“x˜_i»‘L¥»|‹¤’ÊjA‘¬“x˜_‰‰Ki»‘Ljj |
| 2005.4.1` | “ú–{“S|‹¦‰ï‚‰·ƒvƒƒZƒX•”‰ïŒ¤‹†R‹cWGˆÏˆõ |
| @@2004.3.20`2008.3.26@@ | “ú–{“S|‹¦‰ï•]‹cˆõ |
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| @@@@@1999`2001 | Ž‘Œ¹‘fÞŠw‰ï”ñ“S¸˜Bƒ‚ƒfƒŠƒ“ƒOŒ¤‹†‰ïˆÏˆõ |
| @@@@@1999`2001 | “ú–{“S|‹¦‰ïŠw‰ï•”–å u‰‰‘å‰ï‹¦‹c‰ïŽw–¼—Ž– |
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| @@@@@1997` | “ú–{ŠwpU‹»‰ï»|‘æ19ˆÏˆõ‰ïˆÏˆõ |
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| @@@@@1991`1993 | “ú–{“S|‹¦‰ï»‘L•”‰ï»‘L‹ZpŒŸ“¢‰ïê–åˆÏˆõ |
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| @@@@@1985`1986@@ | “ú–{“S|‹¦‰ï“S|HŠwƒZƒ~ƒi[uŽti»‘LƒR[ƒXj |
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| 2@Šw‰ïŽA‘Û“IŠwpŽ•ÒWˆÏˆõ“™iEditorial@Committeesj |
|
| 2007 | ISIJ International Session: gPioneering Application of Waves and Field to Materials Processing (Þ—¿ƒvƒƒZƒbƒVƒ“ƒO‚Ö‚Ì”g“®‚Æê‚Ìæ‹ì“I‰ž—p)h Šé‰æŠ²Ž– |
| 2005`2007 | 1st@Afro-Asian Conference on Advanced Materials Science and Technology (AMSAT 06),International Advisory Board Member |
| 2004`2007 | 4th International Conference on Science and Technology of Ironmaking (ICSTI06),Organizing Committee Member |
| 2003 | ISIJ International Session: gCreation of Innovative Metallurgical Reactor for Mixing/Separationh Šé‰æŠ²Ž– |
| @@@@@2000`2005 | “ú–{“S|‹¦‰ïŠw‰ï•”–å u‰‰‘å‰ïƒvƒƒOƒ‰ƒ€•Ò¬‰ï‹cˆÏˆõ |
| @@@@@1992`1997@ | Modelling and Simulation in Materials Science and Engineering (Institute of Physics Publishing), Editorial Board |
| @@@@@1991`1992 | “dŽ¥ê‚É‚¨‚¯‚é”ñüŒ`Œ»Û‘Û‰ï‹c (ISEM0Nagoya) ‘“àŽÀsˆÏˆõ |
| @@@@@1979`1986@@ | “ú–{“S|‹¦‰ï‰¢•¶ŽuTrans ISIJv‰p•¶Z‰{ˆÏˆõ‰ïˆÏˆõ |
3@ Å‹ß‚ÌŽå‚ÈŠw‰ï“™ˆË—Šu‰‰iRecent@Invited@Lecturesj
|
@@ 2007.6.25 |
‹Zpî•ñ‹¦‰ïƒZƒ~ƒi[u’´‰¹”g‚ð—p‚¢‚½Ž÷Ž‰’†E‰t’†‚ւ̃iƒmÞ—¿‚Ì•ªŽU‹Zpv,h‰t’†‚É‚¨‚¯‚鑽–A«‰¹‹¿ƒLƒƒƒrƒe[ƒVƒ‡ƒ“‚Ì‹““®‰ðÍhC‚«‚ã‚è‚ ‚ñC“Œ‹ž |
|
@@ 2007.5.11 |
Mittal Steel USAChNew Trends of Sonoprocessing of Materialsh, East Chicago, Indiana, USA |
|
@@ 2007.4.20 |
ˆÆŽR»“SŠ,gReaction Engineering Based Research on Ironmaking ProcesseshCˆÆŽR, ’†‘ |
|
@@ 2007.4.19 |
—É”J‰È‹Z‘åŠw–¼—_‹³ŽöŽö—^Ž®, hNew Trends of Sonoprocessing of Materialsh, ˆÆŽRC’†‘ |
|
@@ 2007.3.27 |
“ú–{“S|‹¦‰ïŠwpŒ÷ÑÜŽóÜu‰‰,g‘fÞ»‘¢ƒvƒƒZƒX‚Ì”½‰žHŠw“IŒ¤‹†hCç—tH‘å |
|
@@ 2007.3.19 |
POSCOChNew Trends of Sonoprocessing of Materialsh, Pohang , Korea |
|
@@ 2007.1.25 |
“ú–{‹à‘®Šw‰ï¥“ú–{“S|‹¦‰ï–kŠC“¹Žx•”–{‘½Œõ‘¾˜Y‹L”Ou‰‰‰ï,gŽÐ‰ïŠî”ÕÞ—¿»‘¢ƒvƒƒZƒX‚Ì”½‰žHŠw“IŒ¤‹†h, Žº—–H‘å |
|
@@ 2007.1.24 |
V“úèc,g‘fÞ»‘¢ƒvƒƒZƒX‚Ì”½‰žHŠw“IŒ¤‹†h, Žº—– |
|
@@ 2006.11.15 |
Keynote Speech in AMSAT 06 (First Afro-Asian Conference on Advanced Materials Science and Technology), hNew Trends of Sonoprocessing of Materials and Its Applicationh , Cairo , Egypt |
|
@@ 2006.8.30 |
Invited Lecture in Sohn International Symposium, hRecent Development in Sonoprocessing of Materialsh , San Diego , California, USA |
Žå—v˜_•¶E’˜‘
ƒ’´‰¹”gƒvƒƒZƒVƒ“ƒO„
(1) Cold Model Study on Mass-Transfer
Enhancement at Gas-Liquid Interfaces Exposed to Sound Waves, Metallurgical and Materials Transactions,
Part B, 38(2007)5, pp.809-818.
(2) Influence of High-Power Ultrasonic Irradiation on Primary Nucleation Process during Solidification, Jpn. J. Appl. Phys, 46(2007), No. 7B, pp. 4939-4944.
(3) High Power
Ultrasonics in Pyrometallurgy: Current Status and Recent Development, ISIJ International, 45(2005)12, pp. 1765-1782.
(4) Acoustic
Cavitation Based Production of Foamed Metallic Material, Jpn. J. Appl. Phys, 45(2006),
No. 5B, pp. 4793-4799.(5) Visualization
of Acoustically Induced Cavitation Bubbles and Microjets with the Aid of High
Speed Camera, Jpn. J. Appl. Phys., 44(2005), No. 6B, pp. 4647-4652.
i6j —n“’ˆ—ƒvƒƒZƒX‚É‚¨‚¯‚é‰t’†’´‰¹”g‚̉¹êÝŒv, “S‚Æ|,86(2000)9, pp.625-632.
(7) Orientation of Fibers in Liquid by Applying Ultrasonic Standing Wave, Jpn. J. Appl. Phys.,39(2000) 6A, pp.3683-3687.
(8) Effect of Process Parameters on Ultrasonic@Separation of Dispersed
Particles in Liquid, Jpn. J. Appl. Phys., 38(1999)5B, pp.3096-3100.
(9)@Suppression of Slag Foaming under Sound Wave Application, ISIJ International, 40(2002)5, pp. 431-437.
(10)@Control of Foam Height by Using Sound Waves, ISIJ International, 39(1999)12, pp. 1207-1216.
ƒ»‘L„
(11) Mechanism of Carbothermic
Reduction of Hematite in Hematite-Carbon Composite Pellets, ISIJ
International, 47(2007)10, pp.1394-1400.
(12) Advances in Transport Phenomena Based Mathematical Model
of Blast Furnace, Proc. Japan-Korea Workshop on Science and Technology in Ironmaking and
Steelmaking, Chiba, MarchC30-31(2003), pp.83-88.
(13) ‚˜FƒvƒƒZƒX‚Ì”Šw“I“ñŽŸŒ³ƒ‚ƒfƒ‹, “S‚Æ|, 77(1992)10, pp.1593-1600.
(14) ”÷•²’Yž‚Ý‘€‹Æ‚É‚¨‚¯‚é‰HŒûæ”Rđт̉ðÍ, “S‚Æ|, 72(1986)14, pp.1847-1854.
(15) ‰ñ“]˜F‚É‚æ‚é’¼Ú»“SƒvƒƒZƒX‚̃‚ƒfƒ‹‰», “S‚Æ|, 72(1986)3, pp.380-387.
(16) Mathematical Model of Blast Furnace with Horizontally Layered Burdens, Trans. ISIJ, 17(1977)5, pp.271-277.
(17) Mathematical Model of Blast Furnace with Radially Distributed Burdens,
Trans. ISIJ, 17(1977)6, pp.321-329.
ƒ»|E¸˜B„
(18) Effect of Lime Particle Size on Melting Behavior of Lime-Containing Flux, ISIJ International, 47(2007)10, pp.1401-1408.
(19) Mechanism of Carbothermic Reduction of Chromium Oxide, ISIJ International, 47(2007)10, pp.1387-1393.
(20) Characteristics of Inclusions Generated during Al-Mg Complex Deoxidation of Molten Steel, ISIJ International, 47(2007)10, pp.1379-1386.
(21) In Situ Observation of Aluminothermic Reduction of MgO with High Temperature Optical Microscope, ISIJ International, 46(2006)2, pp. 202-209.
(22) Prevention of Resulfurization in the Desulfurization Process with Magnesium Vapor Produced In Situ by Aluminothermic Reduction of Magnesium Oxide, ISIJ International, 45(2005)12, pp. 1795-1803.
(23) Mechanism of Resulfurization in the Magnesium Desulfurization Process of Molten Iron, ISIJ International, 45(2005)11, pp. 1607-1615.
(24) Behavior of Magnesium in the Desulfurization Process of Molten Iron with Magnesium Vapor Produced In-situ by Aluminothermic Reduction of Magnesium Oxide, ISIJ International, 42(2002)7, pp.685-693.
(25) Desulfurization of Molten Iron with Magnesium Vapor Produced In-situ by Carbothermic Reduction Of Magnesium Oxide, ISIJ International, 41(2001)9, pp. 945-954D
(26) ƒ}ƒOƒlƒVƒA‚̃Aƒ‹ƒ~ƒjƒEƒ€”MŠÒŒ³”½‰ž‚ð—p‚¢‚½‚»‚Ì껑¢ƒ}ƒOƒlƒVƒEƒ€ö‹C‚É‚æ‚é—n“S‚Ì’EŽ_, “S‚Æ|, 88(2002)6, pp. 306-313.
(27) ƒ}ƒOƒlƒVƒA‚Ì’Y‘f”MŠÒŒ³”½‰ž‚ð—p‚¢‚½‚»‚Ì껑¢ƒ}ƒOƒlƒVƒEƒ€ö‹C‚É‚æ‚é—n“S‚Ì’EŽ_,
“S‚Æ|,@87(2001)10, pp. 635-642.
ƒ‹ÃŒÅE‘gD§Œä„
(28) Nucleation of Acicular Ferrite on Sulfide Inclusion during Rapid Solidification of Low Carbon Steel ISIJ International, 47(2007)12, pp.1781-1788.
(29) Interaction between Phosphorus Micro-Segregation and Sulfide Precipitation in Rapidly Solidified Steel|Utilization of Impurity Elements in Scrap Steel, Materials Transactions, 48(2007)12, pp.3709-3087.
(30) Effect of Iron and/or Carbon on the Grain Refinement of Mg-3Al Alloy, Materials Transactions, 48(2007)11, pp.2903-2908.
(31) Isothermal Precipitation Behavior of Copper Sulfide in Ultra Low Carbon
Steel, ISIJ International, 47(2007)11, pp.1672-1679.
(32) gIn-situh Observation of the delta/gamma Phase Transformation on the Surface of Low Carbon Steel Containing Phosphorous with different Cooling Rates. ISIJ International, 46(2006)6, pp. 847-853.
(33) Morphology and Precipitation Mechanism of Copper Sulfide in Strip Casting of Low Carbon Steels, ISIJ Internationa‚Œ, 46(2006) 5, pp. 744-753.
(34) Process Analysis of Non-contact Continuous Casting of Materials Using Cold Crucible, ISIJ International, 36(1996)4, pp.380-387.
(35) ‚’¼ˆê•ûŒü‹ÃŒÅ‚É‚¨‚¯‚é”M—nŽ¿‘Η¬‚Ì—˜_‰ðÍ‚Æ–ÍŒ^ŽÀŒ±, “S‚Æ|, 75(1989)4,
pp.618-625.
ƒ”Rć¬EŠÂ‹«„
(36) Mechanism of Aluminothermic Reduction of Chromium
Oxide, Journal of High Temperature Society of Japan, 34(2008)1,
In Print.
(37)@Numerical Analysis of Self-Propagating High-Temperature Synthesis(SHS)
Combustion Wave Based on Movable Non-uniform Grid, Intern. Journal of Self-Propagating High-Temperature Synthesis, 4(1995)3, pp.253-261D
(38)@Thermit Reaction Assisted Agglomeration of Iron Ore, Proc. Int. Conf. on Steel And Society (ICSS 2000).Osaka, June 4-6 (2000), pp.81-84D
(39) Influences of Process Parameters on Stable Propagation of SHS Combustion
Wave, Proc. 1st Russian-Japanese Workshop on SHS: gJust before the Jump into a New Milleniumh, Karlovy Vary, Czech Republic, Oct.30-Nov.3, (1998), pp.35-38.
ƒ’˜‘„
(40) ˆÚ“®‘wHŠw gŽÀÛ‚ÆŠî‘bh, (‹¤’˜), (–kŠC“¹‘åŠw}‘Š§s‰ï, 2000)
(41)@Advances in Transport Processes in Metallurgical Systems : Principles of Metallurgical Reaction Engineering, (‹¤’˜), (Elsevier Applied Science Pub, 1992).
(42) Blast Furnace Phenomena and Modelling, (‹¤’˜), (Elsevier Applied Science Pub, 1987).
Þ—¿”½‰žƒvƒƒZƒXHŠwuÀ‚̃z[ƒ€ƒy[ƒW‚Ö