㸦㸯㸧Ⲩᾉ ㄔ⏕ ࠗRF-MBEࢆ⏝࠸ࡓDERIἲࡼࡿཌ⭷InGaNᡂ㛗࠾ࡼࡧIn⤌ᡂᦂࡽࡂ
㛵ࡍࡿ◊✲࠘
㸦㸰㸧ᑿ㛵 ᏹኴ ࠗ᭷ᶵ㔠ᒓẼ┦ᡂ㛗ἲࢆ⏝࠸ࡓSiᇶᯈୖAlGaN⦪ᆺࢹࣂࢫࡢ㛤Ⓨ࠘
㸦㸱㸧ቑ⏣ ┤ ࠗRF-MBEἲࡼࡿࢥࣛࣥࢲ࣒ᵓ㐀㓟≀ࡢ⾲㠃❅ฎ⌮㛵ࡍࡿ◊✲࠘
㸦㸲㸧ᯇ⏣ 㞞 ࠗRF-MBEἲࡼࡿpᆺGaNࢤ࣮ࢺࣀ࣮࣐࣮ࣜ࢜ࣇHEMTᵓ㐀ᐇ⌧ྥࡅ ࡓ◊✲࠘
㸦㸳㸧᭷‶ᾏᚿࠗ&)53 ᥋╔᥋ྜ⥅ᡭࡢ࣮ࣔࢻ , ⑂ປࡁ㐍ᒎ≉ᛶࡢ㈇Ⲵ㏿ᗘ౫Ꮡᛶ࠘
㸦㸴㸧ᒸ ┤㍤ࠗ⾪ᧁⲴ㔜ୗ࠾ࡅࡿ &)53 ᥋╔᥋ྜ⥅ᡭࡢࡁ㐍ᒎ≉ᛶホ౯࠘
㸦㸵㸧Ἑᮧ♸㈗ࠗ㏲ḟᅽቯ㐣⛬࠾ࡅࡿ &)53 ✚ᒙᮦࡢ⾪ᧁ࢚ࢿࣝࢠ࣮྾≉ᛶホ౯࠘
㸦㸶㸧Ύᐙ┤ᶞࠗ㓟ࢡ࣒ࣟࢆ⏝࠸ࡓ⇕ศゎἲࡼࡿ &)53 ✚ᒙᮦࡢ᪂つ᥋ྜᢏ⾡ࡢ㛤Ⓨ࠘
㸦㸷㸧ᯘ⏣▱Ꮚࠗࢫࣉ࣮ࣞሬᕸἲࡼࡿ⇕◳ᛶ &)53 ᮦࡢ᪂つᡂᙧᢏ⾡ࡢ㛤Ⓨ࠘
㸦㸯㸮㸧 ᐑ⬥❶⿱ࠗ᭷㝈せ⣲ἲࢆ⏝࠸ࡓ୕㍈೫ᚰࣂࢱࣇࣛࣂࣝࣈࡢࢩ࣮ࣝᛶ⬟ホ౯࠘
㸦㸯㸯㸧 㡑 ᪫ࠗࣇࣥࣈࣛࣥ࢟ࣥࢢἲࡼࡿ &)53 ✚ᒙᮦࡢ⢭ᐦᡴᢤຍᕤ࠘
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㸦㸯㸳㸧 ᪂⿱அ ࠗ/LIWRII ἲࢆ⏝࠸ࡓ &X,Q*D6H ࢫ࣮ࣃ࣮ࢫࢺ࣮ࣞࢺᆺኴ㝧㟁ụ ࡢ㏱᫂㠃㟁ᴟࡢ᳨ウ࠘
㸦㸯㸴㸧 ᳜ᇉග ࠗ&X6Q6 ග྾ᒙࡢ 1D ῧຍ㛵ࡍࡿ◊✲࠘
㸦㸯㸵㸧 ᑠ㇂ౡኈ ࠗ⇕ฎ⌮ࢆ⏝࠸ࡓ 6Q6 ග྾ᒙࡢస〇ホ౯࠘
㸦㸯㸶㸧 ᮎỌᬛ ࠗ㸦&G=Q6 ࣂࢵࣇᒙࢆ⏝࠸ࡓ 6Q6 ኴ㝧㟁ụࡢస〇ホ౯࠘
㸦㸯㸷㸧 ᯇᑿᑑ ࠗ&X=Q6Q66H ኴ㝧㟁ụࢭࣝ࠾ࡅࡿᾮ┦ᡂ㛗ࡼࡿ =Q ⣔ࣂࢵࣇ
ᒙ㛵ࡍࡿ◊✲࠘
㸦㸰㸮㸧 ⃝அ ࠗ=Q6Q3 ⷧ⭷࠾ࡅࡿ✺㉳≀⏕ᡂࡢᢚไ᳨ウ࠘
㸦㸰㸯㸧 ▼㥴ᖹࠊࠕ࣓ࢯ࣏࣮ࣛࢫࢩࣜ࢝ᢸᣢࡋࡓࢥࣂࣝࢺゐ፹ࡢ㓟㑏ඖ≉ᛶࠖࠊಟኈ 㸦ᕤᏛ ❧㤋Ꮫ㸧ࠊ ᖺ ᭶㸬
㸦㸰㸰㸧 ㈏㞝ᘺࠊࠕࣜࣥ㓟ࣂࢼࢪ࣒࢘ࣜࢳ࣒࢘ḟ㟁ụṇᴟ࠾ࡅࡿᛂゎᯒࠖࠊಟኈ㸦⌮
Ꮫ ❧㤋Ꮫ㸧ࠊ ᖺ ᭶㸬
㸦㸰㸱㸧 㨣㢌ᣅᕭࠊࠕ㈇ᴟᑐྥࡋ࡞࠸࣐ࣥ࢞ࣥ㓟ࣜࢳ࣒࢘ḟ㟁ụṇᴟ࡛ࡢືⓗ㟁ᴟ
ᛂศᕸゎᯒࠖࠊಟኈ㸦⌮Ꮫ ❧㤋Ꮫ㸧ࠊ ᖺ ᭶㸬
㸦㸰㸲㸧 㕥ᮌ῟ྖࠊࠕᕼⷧ࡞ࢩࣜ࢝ᢸᣢࢽࢵࢣࣝゐ፹ࡢ≧ែ㓟㑏ඖ≉ᛶࡢゎᯒࠖࠊಟኈ 㸦⌮Ꮫ ❧㤋Ꮫ㸧ࠊ ᖺ ᭶㸬
㸦㸰㸳㸧 ᯇᒸဴஓࠊࠕ୍㓟Ⅳ⣲ཬࡧ୍㓟❅⣲㞺ᅖẼୗ࠾ࡅࡿࢩࣜ࢝ᢸᣢࢽࢵࢣࣝゐ
፹ࡢ≧ែゎᯒࠖࠊಟኈ㸦ᕤᏛ ❧㤋Ꮫ㸧ࠊ ᖺ ᭶㸬
㸦㸰㸴㸧 ᒣᮏᝆ⟇ࠊࠕᚤᑠ࡞ᢸᣢࢽࢵࢣࣝ⢏Ꮚࡢㄪ〇㓟㑏ඖ≉ᛶࡢゎᯒࠖࠊಟኈ㸦⌮Ꮫ
❧㤋Ꮫ㸧ࠊ ᖺ ᭶㸬
㸦㸰㸵㸧 ኴ⏣୍㍤㸪ࠗ㧗⃰ᗘ %࣭*H ࢥࢻ࣮ࣉࢩࣜࢥࣥࡢ࣐ࢡࣟࢫࢣ࣮ࣝ㧗 ᘬᙇヨ㦂
࠾ࡅࡿ⣧≀ࡢᙳ㡪࠘
㸦㸰㸶㸧 ୖ㔝ᖹ㸪ࠗⷧ⭷ 6L ᘬᙇ◚᩿ࡢ㏱㐣ᆺ㟁Ꮚ㢧ᚤ㙾ࡼࡿࣜࣝࢱ࣒ほᐹἲࡢ㛤
Ⓨ࠘
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㸺◊✲࣭ຮᙉ㛤ദ≧ἣ㸼
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㈡┴ⲡὠᕷࠊ᪥㸸 ᖺ ᭶ ᪥
−65−
This document is provided by JAXA.
㸺
㸺≉チ㸼
㸦㸯㸧Ⓨ᫂ࡢྡ⛠㸸㟁Ꮚ㢧ᚤ㙾⏝ヨᩱࡢᘬᙇヨ㦂ࢹࣂࢫཬࡧࡑࡢ〇㐀᪉ἲⓎ᫂⪅㸸Ᏻ⸨ጁᏊࠊ
ୖ㔝ᖹฟ㢪᪥㸸㸰㸮㸯㸳ᖺ㸯㸮᭶㸯㸲᪥ฟ㢪␒ྕ㸸≉㢪㸰㸮㸯㸳㸫㸰㸮㸰㸴㸷㸳
ᆺ◊✲⨨ᡂᯝሗ࿌᭩
⨨ྡ 600 MHz ᰾☢Ẽඹ㬆⨨
◊✲㈐௵⪅
㸦ᡤᒓ࣭ᙺ⫋࣭Ặྡ㸧 ⸆Ꮫ㒊࣭ᩍᤵ࣭Ẹ⛅ ᆒ
◊✲ࢸ࣮࣐ 㸯㸧ኳ↛ࢡࣟࣟࣇࣝศᏊࡢᵓ㐀ゎᯒ
㸰㸧ኳ↛࡞ࡽࡧྜᡂ᭷ᶵྜ≀ࡢᵓ㐀≀ᛶゎᯒ
◊✲ࡢᴫせ 㸺ከᒱΏࡿࡢ࡛ࠊ◊✲ࢸ࣮࣐㸯㛵ࡍࡿㄽᩥ㸰ࡢせ⣙ࡢࡳࢆ♧ࡍ㸼
⥳Ⰽගྜᡂ⣽⳦࠾ࡅࡿග✭ᆺࢡࣟࣟࣇࣝࡣࠊ≉ู࡞ศᏊᵓ㐀ࢆ᭷ࡋ࡚࠾
ࡾࠊࡑࡢᵓ㐀ᛂࡌ࡚ࣂࢡࢸࣜ࢜ࢡࣟࣟࣇࣝ-㹡࣭㹢࣭㹣࣭㹤(BChl- c㺃d㺃e㺃
f)ࡀ▱ࡽࢀ࡚࠸ࡿࠋ᭱㏆ᡃࠎࡣࠊBChl-e ࢆ⏕ྜᡂࡍࡿ⳦య㸦Chlorobaculum
limnaeum㸧ὀ┠ࡋ࡚࠸࡚ࠊࡑࡢࢡࣟࣟࣇࣝⰍ⣲ศᏊࡢ⏕ྜᡂ⤒㊰ࡢゎ᫂
ࢆ⾜ࡗ࡚࠸ࡿࠋ≉ࠊࡇࡢࢡࣟࣟࣇࣝⰍ⣲ศᏊࡢ୰᰾ࢆ࡞ࡍ⎔≧ඹᙺȧ 㟁Ꮚ⣔ࡢࢡࣟࣜࣥ㦵᱁ࡢ࿘㎶⨨ᇶࡢಟ㣭ᛂࢆྖࡿ㓝⣲ࡑࡢ㑇ఏᏊࡢゎ
᫂ࢆ⾜࠸ࠊࡉࡽཎᅉ㑇ఏᏊࡢḞᦆᰴࡢㄪ〇ࡶᡂຌࡋ࡚࠸ࡿࠋᅇࠊ20 ࡢ࣓ࢳࣝ㌿⛣㓝⣲㸦BchU㸧7ࡢ࣓ࢳࣝᇶ㓟㓝⣲㸦BciD㸧ᑐᛂࡍࡿ
㑇ఏᏊbchUbciDࡢ୧᪉ࢆḞᦆࡉࡏࡓኚ␗ᰴࢆㄪ〇ࡋࠊࡑࡢᵓᡂࢡࣟࣟࣇ
ࣝⰍ⣲ศᏊࡢศᏊᵓ㐀ࢆ᫂ࡽࡋࡓࠋ
ኳ↛ᰴࡢChlorobaculum limnaeumࡣࠊBChl-eࡀྵࡲࢀ࡚࠸ࡿࡀࠊbchUbciD 㑇ఏᏊࡢ୧Ḟᦆᰴࡣࠊࡑࢀࡽࡢ⏕ᡂ㓝⣲ࡢBchUBciDࡀᏑᅾࡋ࡞࠸ࡓࡵࠊ 20ࡢ࣓ࢳࣝ7ࡢ࣓ࢳࣝᇶࡢ㓟ࡀ㐍⾜ࡏࡎࠊ207Ỉ⣲ཎᏊ
࣓ࢳࣝᇶࢆ᭷ࡍࡿࢡࣟࣟࣇࣝⰍ⣲㸻BChl-dࡢࡳࡀ⏕ྜᡂࡉࢀࡓࠋኳ↛ᰴ
࡛ࡢBChl-eࡣࠊ31ࡢ❧యᏛ࠾ࡼࡧ82121ࡢ࣓ࢳࣝᗘࡢ␗࡞ࡿ
࢚ࣆ࣐࣮࠾ࡼࡧ࣍ࣔࣟࢢయࡀᏑᅾࡋࠊࡓࡿBChl-eࡣࠊ31ࡢ❧యᏛࡀR య࣭82ࡀ㠀࣓ࢳࣝయ࣭121ࡀࣔࣀ࣓ࢳࣝయ࡛࠶ࡿࠋ୍᪉ࠊᅇㄪ〇ࡋ ࡓbchUbciDࡢ୧Ḟᦆᰴ࡛ࡣࠊࡓࡿBChl-dࡣࠊ31ࡢ❧యᏛࡀSయ࣭
82ࡀࢪ࣓ࢳࣝయ࣭121ࡀࣔࣀ࣓ࢳࣝయ࡛࠶ࡗࡓࠋbchUbciD㑇ఏᏊ
ࢆ୧᪉ࡶḞᦆࡉࡏࡿࡇ࡛ࠊ31࡛ࡢ❧యᏛࡢ㌿82࡛ࡢ࣓ࢳࣝ
ࡢಁ㐍ࡀࡶࡓࡽࡉࢀࡓࡇࡀุ᫂ࡋࡓࠋࡇࡢⰍ⣲ศᏊ࠾ࡅࡿ⤌ᡂኚࡣࠊ ග✭⬟࠾ࡅࡿ࢚ࢿࣝࢠ࣮⛣ືࡢຠ⋡ࢆಁࡍࡓࡵ࡛࠶ࡿ⪃࠼ࡽࢀࡿࠋ
−67−
This document is provided by JAXA.
⏝ᡂᯝ ⏝ᡂᯝ㸦ከᩘΏࡿࡢ࡛ࠊ◊✲ࢸ࣮࣐㸯㛵ࡍࡿࡶࡢࡢࡳ♧ࡍ㸧 ㄽᩥ
1. T. Mizoguchi, M. Isaji, J. Harada, Y. Tsukatani, H. Tamiaki, "The 17-propionate esterifying variants of bacteriochlorophyll-a and bacteriopheophytin-a in purple photosynthetic bacteria," J. Photochem. Photobiol. B: Biol., 142, 244–249 (2015).
2. T. Mizoguchi, J. Harada, K. Yamamoto, H. Tamiaki, "Inactivation of bciD and bchU genes in the green sulfur bacterium Chlorobaculum limnaeum and alteration of photosynthetic pigments in the resultant mutants," J. Photochem. Photobiol. A:
Chem., 313, 52–59 (2015).
ᅜ㝿Ꮫ
1. C. Okada, T. Mizoguchi, J. Harada, H. Tamiaki, "Observation of
8-vinyl-12-ethyl-bacteriochlorophyll-e in a green sulfur bacterium cultured by intense red-light illumination," PACIFICHEM 2015, ENRG-176 (࣍ࣀࣝࣝ㻘 2015 ᖺ12᭶).
ᅜෆᏛ
⁁ཱྀ ṇࠊఀబᜨࠊཎ⏣ᮁࠊᒣ㔝ዉ⨾ࠊ⸨ᚊᏊࠊẸ⛅ ᆒࠊࠕ⌛⸴
Chaetoceros calcitransࡢࢡࣟࣟࣇࣝDࡢᵓ㐀ᶵ⬟ࠖࠊ➨ ᅇ᪥ᮏ᳜≀⏕
⌮Ꮫᖺ(┒ᒸ2016ᖺ3᭶ணᐃ).
༤ኈㄽᩥ
ヱᙜ࡞ࡋ ಟኈㄽᩥ
1. ᒸ⏣▱Ἃࠕ⥳Ⰽගྜᡂ⣽⳦ࡢᇵ㣴࠾ࡅࡿ↷ᑕග౫Ꮡ㛵ࡍࡿ◊✲ࠖ
ᆺ◊✲⨨ᡂᯝሗ࿌᭩
⨨ྡ Applied Biosystems QSTAR Elite LC/MS/MS
◊✲㈐௵⪅
㸦ᡤᒓ࣭ᙺ⫋࣭Ặྡ㸧 ᪩㔝 ಇဢ㸦⏕⛉Ꮫ㒊࣭ᩍᤵ㸧
◊✲ࢸ࣮࣐ ձ ࣜ࣎ࢯ࣮࣒⏕ྜᡂ㐣⛬ࡢゎ᫂
ղ ᰾⭷ཎᅉࢱࣥࣃࢡ㉁ࡢ᪂つᶵ⬟ࡢゎ᫂
ճ PKNࡢࣜࣥ㓟ࣉࣟࢸ࣮࣒࢜ゎᯒ
մ ࢺࣛࣥࢫ࣑࢜ࢡࢫࢆ⏝࠸ࡓ⥺C. elegans࠾ࡅࡿMEX-1, MEX-3࠾ࡼࡧ
SPN-4ࡢ⩻ヂㄪ⠇ೃ⿵㑇ఏᏊ⩌ࡢྠᐃ
յ ⥺C. elegansࡢỈᛶࢱࣥࣃࢡ㉁ࡢࣉࣟࢸ࣮࣒࢜ゎᯒ
◊✲ࡢᴫせ ձ ࣄࢺࣜ࣎ࢯ࣮࣒⏕ྜᡂ㛵ࡍࡿࢺࣛࣥࢫస⏝ᅉᏊNop52ࡢ┦స⏝ࢱࣥ
ࣃࢡ㉁ࢆ⥙⨶ⓗྠᐃࡍࡿࡇࡼࡾࠊྠࢱࣥࣃࢡ㉁ࡀࣜ࣎ࢯ࣮࣒RNA๓ 㥑యࡢึᮇࡢࣉࣟࢭࢵࢩࣥࢢ㛵ࡍࡿࡇࢆ᫂ࡽࡋࡓࠋ
ղ ᰾⭷ࡣࠊ᰾ෆ⭷ᒁᅾࡍࡿ࠸ࡃࡘࡢࢱࣥࣃࢡ㉁ࢆࢥ࣮ࢻࡍࡿ㑇ఏᏊࡢ ኚ␗క࠸Ⓨࡍࡿᝈ࡛࠶ࡿࠋᮏ◊✲࡛ࡣࠊ᪩⪁࠾ࡼࡧ➽ࢪࢫࢺࣟࣇ
࣮ཎᅉࢱࣥࣃࢡ㉁࡛࠶ࡿBAF࠾ࡼࡧEmerinὀ┠ࡋࠊࡇࢀࡽࡢ┦స
⏝ࢱࣥࣃࢡ㉁ࢆ⥙⨶ⓗྠᐃࡍࡿࡇ࡛ࡑࢀࡒࢀࡢᝈࡢⓎᶵᵓࡢゎ᫂
ࡘ࡞ࡀࡿ▱ぢࢆᚓࡓࠋ
ճ ࢭࣜࣥ/ࢫࣞ࢜ࢽࣥ࢟ࢼ࣮ࢮ PKNࡣࠊከᵝ࡞⣽⬊ᶵ⬟㛵ࢃࡗ࡚࠸ࡿࠋᮏ
◊✲࡛ࡣࠊPKNࡢ᪂つᶵ⬟ࡢ᥈⣴ࢆ┠ⓗࡋ࡚ࠊin vitro࡛ࡢ⥙⨶ⓗ࡞PKN ࡢᇶ㉁᥈⣴⣔ࢆᵓ⠏ࡋࡓࠋ
մ ᡃࠎࡣ㸪⥺C. elegansࡢ⣽⬊㐠Ỵᐃࢩࢫࢸ࣒ࢆゎ᫂ࡋ㸪ࡑࡢࢩࢫࢸ࣒ࢆ
ᵓ⠏ࡍࡿࡇࢆ┠ᶆࡋ࡚࠸ࡿ㸬⥺ࡢ⣽⬊㐠ࡣ㸪ẕᛶ⏤᮶㑇ఏᏊ
ࡼࡾ12⣽⬊ᮇࡲ࡛Ỵᐃࡉࢀ㸪ẕᛶ⏤᮶㑇ఏᏊ⏘≀࡛࠶ࡿ㝈ࡽࢀࡓ⩻ヂㄪ
⠇ᅉᏊࡀ㸪mRNA ࡢ 3’-UTR ⤖ྜࡍࡿࡇ࡛⾜ࢃࢀࡿ⩻ヂㄪ⠇ࡀ㛵㐃ࡋ
࡚࠸ࡿ㸬ࡑࡇ࡛㸪ẕᛶ⏤᮶㑇ఏᏊࡢ௦⾲ⓗ࡞⩻ヂᅉᏊMEX-1, MEX-3࠾ࡼ
ࡧSPN-4㛵ࡋ࡚㸪ẚ㍑ᐃ㔞ࣉࣟࢸ࣮࣒࢜ゎᯒẚ㍑ᐃ㔞ࢺࣛࣥࢫࢡࣜࣉ
ࢺ࣮࣒ゎᯒࢆ⤌ࡳྜࢃࡏࡓࢺࣛࣥࢫ࣮࣒࢜ゎᯒࢆ⾜࠸㸪MEX-1, MEX-3 ࠾
ࡼࡧSPN-4ࡑࢀࡒࢀࡀ⩻ヂㄪ⠇ࡍࡿ㑇ఏᏊ⩌ࡢྠᐃࢆ⾜ࡗࡓࠋ
յ ᡃࠎࡣ㸪⥺ࢆᮦᩱࡋࡓࣉࣟࢸ࣮࣒࢜ࣉࣟࢪ࢙ࢡࢺࢆ⢭ຊⓗ᥎㐍ࡋ࡚
࠸ࡿࡀ㸪ࣉࣟࢸ࣑࢜ࢡࢫ࠾࠸࡚࠸⭷㈏㏻㡿ᇦࢆ᭷ࡍࡿỈᛶࢱࣥࣃ
ࢡ㉁ࢆ࢝ࣂ࣮ࡍࡿࡀㄢ㢟࡞ࡾ㸪Ỉᛶࢱࣥࣃࢡ㉁ࡢࣉࣟࢸ࣮࣒࢜ᡭἲ 㸦CM-Cἲ㸧ࢆ㛤Ⓨࡋࡓࠋ
−69−
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⏝ᡂᯝ ㄽᩥ
ձ Yoshikawa H., Ishikawa H., Izumikawa K., Miura Y., Hayano T., Isobe T.,Simpson R. J., Takahashi N. Human nucleolar protein Nop52 (RRP1/NNP-1) is involved in site 2 cleavage in internal transcribed spacer 1 of pre-rRNA at early stages of ribosome biogenesis. Nucleic Acids Res. 43, 5524-5536 (2015)
ᅜ㝿Ꮫ
ձ Hiroki Yamashita, Takuma Shirahase, Aimi Tomita, Takehiro Oshime, Toshiya Hayano, Hisao Kojima, Masahiro Ito. Transomic identification of candidate genes translationally regulated by MEX-1 in Caenorhabditis elegans. Metabolism, Transcription and Disease (2016 Keystone Symposia Conference) 2016/01/13
ղ Hisao Kojima, Takayoshi Tomono, Masahiro Ito. Glycosyltransferase Evolution – A View from the Search for Ascidian Glycosphingolipids.
23rd International Symposium on Glycoconjugates (Glyco23) 2015/09 ᅜෆᏛ
ձ ➉ᯘ㍤ࠊ㔝⏣㝧ᖹࠊྜྷᓮᑦⰋࠊྥ⚽ᖾࠊ᪩㔝ಇဢ Protein Kinase
N(PKN)ࡢ⣽⬊࿘ᮇ㐍⾜ࡢ㛵 ➨38ᅇ᪥ᮏศᏊ⏕≀Ꮫᖺ㸦2015
ᖺ12᭶㸧
ղ ᳃⏣㈗ࠊ㏆ᯇṌ⨾ࠊ㔝㛫⳯ᐇᏊࠊ䭜ᕝ⩧୍ࠊ᪩㔝ಇဢ DNAᦆയᛂ⟅
⤒㊰ࡢBarrier-to-autointegration factorࡢ㛵 ➨38ᅇ᪥ᮏศᏊ⏕≀Ꮫ
ᖺ㸦2015ᖺ12᭶㸧
ճ ᑠᓥᑑኵࠊఀဴྐࠊᒣୗ⣫Ꮨࠊ᪩㔝ಇဢࠊఀ⸨ᑘᘯ Caenorhabditis
elegansC. briggsaeࡢỈᛶࢱࣥࣃࢡ㉁ࡢẚ㍑ࣉࣟࢸ࣮࣒࢜ゎᯒ ➨38
ᅇ᪥ᮏศᏊ⏕≀Ꮫᖺ㸦2015ᖺ12᭶㸧
մ ᒣୗ⣫Ꮨࠊ⏣⨾ࠊᢲ┠Ṋ⣫ࠊⓑἼ℩ᣅ㤿ࠊᑠᓥᑑኵࠊ᪩㔝ಇဢࠊఀ⸨
ᑘᘯ ࢺࣛࣥࢫ࣑࢜ࢡࢫࢆ⏝࠸ࡓ⥺C. elegans࠾ࡅࡿMEX-1ࠊMEX-3
࠾ࡼࡧSPN-4ࡢ⩻ヂㄪ⠇ೃ⿵㑇ఏᏊ⩌ࡢྠᐃ ➨38ᅇ᪥ᮏศᏊ⏕≀Ꮫ
ᖺ㸦2015ᖺ12᭶㸧
յ 㜿㒊㈗ెᏊࠊ⸨ୗ⣠ឡࠊ᪩㔝ಇဢ Emery-Dreifussᆺ➽ࢪࢫࢺࣟࣇ࣮
Ⓨᶵᵓࡢゎ᫂ ➨38ᅇ᪥ᮏศᏊ⏕≀Ꮫᖺ㸦2015ᖺ12᭶㸧 ಟኈㄽᩥ
ձ 㔝⏣㝧ᖹ ࣉࣟࢸࣥ࢟ࢼ࣮ࢮN㸦PKN㸧ࡢࣜࣥ㓟ࣉࣟࢸ࣮࣒࢜ゎᯒ 㸦2016ᖺ2᭶㸧
ղ 䭜ᕝ⩧୍ ᪩⪁ཎᅉࢱࣥࣃࢡ㉁BAFࡢ᪂つᶵ⬟ゎ᫂㸦2016ᖺ2᭶㸧
ճ ᒣୗ ⣫Ꮨ ࢺࣛࣥࢫ࣑࢜ࢡࢫࢆ⏝࠸ࡓ⥺ Caenorhabditis elegans ࠾ࡅ
ࡿ MEX-1, MEX-3࠾ࡼࡧSPN-4ࡢ⩻ヂㄪ⠇ೃ⿵㑇ఏᏊ⩌ࡢྠᐃ㸦2016ᖺ 2᭶㸧
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ᆺ◊✲⨨ᡂᯝሗ࿌᭩
⨨ྡ BKCኳయほ ࢻ࣮࣒
◊✲㈐௵⪅
㸦ᡤᒓ࣭ᙺ⫋࣭Ặྡ㸧 ⌮ᕤᏛ㒊࣭ᩍᤵ ᳃ ṇᶞ
◊✲ࢸ࣮࣐ 60cmගᏛᑕᘧኳయᮃ㐲㙾ࢆ⏝࠸ࡓኳయほ
◊✲ࡢᴫせ 2014ᖺ3᭶BKCࢺࣜࢩࡢᒇୖタ⨨ࡉࢀࡓ60cmኳయᮃ㐲㙾ࢆ⏝࠸࡚ࠊ 1) ኴ㝧⣔እᝨᫍࡢࢺࣛࣥࢪࢵࢺἲ㸦ᝨᫍࡀᜏᫍࡢග⌫㠃ࢆ㏻㐣ࡍࡿ㝿
㉳ࡇࡿῶගࢆ⢭ᐦ ᐃࡍࡿࡇࡼࡗ࡚ᝨᫍࢆ᳨ฟࡍࡿ㸧ࡼࡿほ 2) ⇿Ⓨᚋᩘ᪥࡛ῶගࡍࡿ࣐࢞ࣥ⥺ࣂ࣮ࢫࢺኳయࡢṧගほ
3) ࣇࣞࢆᢡ㉳ࡇࡍάື㖟Ἑࡢ㛫ኚືࡢࣔࢽࢱ࣮ほ
࡞ࢆᐇࡍࡿࠋ࢟ࣕࣥࣃࢫෆ࠸࠺タ⨨᮲௳ࢆάࡋࠊࡇࢀࡽ㛫ኚືࡍࡿ
ኳయࡢගᗘࢆ㧗࠸㢖ᗘ࡛⢭ᐦ ᐃࡍࡿࡇࢆ┠ᣦࡍࠋ60cmཱྀᚄࡢᮃ㐲㙾࡛࠶
ࢀࡤࠊ෭༷CCD࣓࢝ࣛࢆ↔Ⅼ㠃ࡢග᳨ฟჾࡋ࡚⏝࠸ࡿࡇࡼࡾ21➼⣭⛬
ᗘࡢᬯ࠸ኳయࡲ࡛ࡢほ ࡀྍ⬟࡞ࡿࠋ
⏝ᡂᯝ 2015ᖺᗘᘬࡁ⥆ࡁࠊほ ࢩࢫࢸ࣒ࡢᩚഛࢆ⾜ࡗࡓࠋほ ࡀᐜ᫆⾜࠼ࡿࡼ
࠺ࠊᮃ㐲㙾ࢩࢫࢸ࣒ࡀࡍ࡚㐲㝸᧯స࡛ྍ⬟࡞ࡾࠊྲྀᚓࡋࡓ⏬ീࢹ࣮ࢱࡣࢹ
࣮ࢱࢧ࣮ࣂ㌿㏦ࡋ࡚᱁⣡࡛ࡁࡿࡼ࠺࡞ࢩࢫࢸ࣒ࡀᡂࡋࡓࠋࡲࡓࠊ㐲㝸᧯స
୰ࡢኳೃኚࢆࣔࢽࢱ࣮ࡍࡿࡓࡵࠊィ⟬ᶵࡽࢹ࣮ࢱྲྀᚓྍ⬟࡞Ẽ㇟ほ ᶵჾ
࠾ࡼࡧ㞵ࢭࣥࢧ࣮ࠊᮃ㐲㙾ࢫࣜࢵࢺࡢ㛤㛢≧ែࢆㄪࡿ㊥㞳ࢭࣥࢧ࣮ࠊࢻ
࣮࣒ෆ≧ἣࢆ┘どࡍࡿWeb࣓࢝ࣛࡀタ⨨ࡉࢀࠊࡍ࡚ࡢሗࡀWeb Browser
ࡽᏛෆᑓ⏝࡛㜀ぴྍ⬟࡞ࡼ࠺࡞ࢩࢫࢸ࣒ࡋ࡚ᩚഛࡉࢀ࡚࠸ࡿࡀࠊࡉࡽኪග 㔞ࢆ ࡿࣔࢽࢱ࣮ࢆຍࡋࡓࠋࡇࢀࡽࡢᩚഛࡣ≀⌮⛉Ꮫ⛉≉௵ຓᩍࡢዟ⏣๛ྖ
Ặࡀᢸᙜࡋࡓࠋࡉࡽࠊ✵ࡢ≧ែࢆࣔࢽࢱ࣮ࡍࡿኳ࣓࢝ࣛࢆタ⨨ࡍࡿ‽
ഛࡋ࡚ࠊ㨶║ࣞࣥࢬ࡛ᫍ✵ࢆᙳࡋࠊ㞼㔞࡞✵ࡢ≧ែࢆุ᩿ࡍࡿࢩࢫࢸ࣒
ࢆᵓ⠏୰࡛࠶ࡿࠋࡲࡓࠊ෭༷CCD࣓࢝ࣛࢆ⏝࠸࡚ࡇࡢࢩࢫࢸ࣒࡛ヨ㦂ᙳࢆ
⾜ࡗࡓࠋྲྀᚓࡋࡓ⏬ീࢹ࣮ࢱࡢရ㉁ࢆホ౯ࡍࡿࡓࡵࠊᫍീࢆ⮬ື᳨ฟࡋ࡚࢝ࢱ
ࣟࢢ್ẚ㍑ࡋࠊ㝈⏺➼⣭ࡸど㔝ࡢ࿘㎶ῶග࡞ࠊᮃ㐲㙾ࡢගᏛ≉ᛶࢆㄪࡿ
ᚲせࡀ࠶ࡾࠊࡑࡢࡓࡵࡢࢯࣇࢺ࢙࢘ࡶ㛤Ⓨࡋ࡚࠸ࡿࠋࡇࢀࡽࡢ◊✲ࡣ
≀⌮⛉Ꮫ⛉ࡢᏛ㝔⏕ࡀྲྀࡾ⤌ࢇ࡛࠸ࡿࠋ
ᖺᗘࡣගᗘࡀ㛫ኚືࡍࡿኳయࡢ◊✲ࡢ➨୍Ṍࡋ࡚ࠊẚ㍑ⓗ▷࿘ᮇࡢኚ ගᫍࡢほ ࡑࡢゎᯒࢆ⾜࠸ࠊᩚഛࡋ࡚ࡁࡓࢩࢫࢸ࣒ࡀほ ᶵჾࡋ࡚᭷⏝࡛
࠶ࡿࡇࢆ☜ㄆࡋࡓ[1]ࠋ
࠙༞ᴗㄽᩥࠚ
[1] ᖹᒣ㑈୍ࠊࠕ❧㤋Ꮫ 60cm ᑕᮃ㐲㙾ࢆ⏝࠸ࡓኚගᫍࡢほ ࡑࡢゎ ᯒࠖࠊ≀⌮⛉Ꮫ⛉༞ᴗ◊✲㸦2016ᖺ2᭶㸧
࠙ࡑࡢࠚ
2015ᖺ11᭶12᪥㹼14᪥୍⯡ྥࡅࡢほᮃࢆ㛤ദࡋࡓࠋࢻ࣮࣒ࡢࢫ࣮࣌ࢫ ࡢไ㝈ࡽタᐃࡋࡓྛ᪥20ྡࡢᐃဨࢆࠊ᪥ࡼࡗ࡚ࡣ㉸࠼ࡿᛂເࡀ࠶ࡾࠊᬌ ࡣᫍࢆᮃ㐲㙾࡛な࠸࡚ࡶࡽ࠺ࡇࡀ࡛ࡁࡓࠋࡲࡓࠊྠ❆࡞࡛ኳᩥྎࡢぢᏛ ᕼᮃࡀከᩘᐤࡏࡽࢀࠊࡇࢀᑐᛂࡋࡓࠋࡉࡽࠊᏛ⏕ࢧ࣮ࢡ࡛ࣝ࠶ࡿⲡὠኳᩥ
◊✲ࡣほᮃ࡞ᡭఏ࠸ࢆ౫㢗ࡍࡿࡶࠊㅮ⩦ࢆ⾜ࡗ࡚᧯సࢆ
⩦ᚓࡋ࡚࠸ࡓࡔࡁࠊ᭶3ᬌࡢほ ᪥ࢆタᐃࡋ࡚ᮃ㐲㙾ࢆ⏝ࡋ࡚ࡶࡽࡗ࡚࠸
ࡿࠋ
−73−
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ᆺ◊✲⨨ᡂᯝሗ࿌᭩
⨨ྡ ᪥❧ప┿✵ศᯒ㉮ᰝ㟁Ꮚ㢧ᚤ㙾
◊✲㈐௵⪅
㸦ᡤᒓ࣭ᙺ⫋࣭Ặྡ㸧 ⌮ᕤᏛ㒊࣭ᩍᤵ࣭ୖ㔝 ᫂
◊✲ࢸ࣮࣐ ྛ✀ᮦᩱࡢᚤどⓗ⤌⧊࠾ࡼࡧ◚㠃ほᐹ➼ࢆ㏻ࡌࡓᮦᩱᡂ㸤ホ౯◊✲
◊✲ࡢᴫせ ᙜヱ㢧ᚤ㙾ࡣ㸪ձ᪥❧ࣁࢸࢡࣀࣟࢪ࣮ࢬ〇ప┿✵ศᯒ㉮ᰝ㟁Ꮚ㢧ᚤ 㙾 SU6600㸪ղ࢜ࢵࢡࢫࣇ࢛࣮ࢻ࣭ࣥࢫࢺ࣓ࣝࣥࢶ〇࢚ࢿࣝࢠ࣮ศᩓᆺ㹖⥺ඖ
⣲ศᯒ⨨EDS㸪ճ࢜ࢵࢡࢫࣇ࢛࣮ࢻ࣭ࣥࢫࢺ࣓ࣝࣥࢶ〇㟁Ꮚ⥺ᚋ᪉ᩓ
ᅇᢡ⤖ᬗ᪉ゎᯒ⨨EBSDࡽᵓᡂࡉࢀ࡚࠾ࡾ㸪ձࡣྛ✀ᮦᩱࡸ◚㠃ࡢᚤど
ⓗほᐹ㸪ղࡣᚤᑠ㡿ᇦࡢඖ⣲ศᯒ㸪ճࡣ⤖ᬗ᪉ゎᯒࡸᚤど㡿ᇦࡢኚᙧ⛬
ᗘศᯒ࡞ࡢ⏝࠸ࡽࢀ࡚࠸ࡿ㸬ྛ⨨㸦ձ㸪ղ㸪ճ㸧ࢆ⏝࠸ࡿࡇ࡛ᚓࡽࢀࡓ
◊✲ᡂᯝࡢᴫせࢆ௨ୗ♧ࡍ㸬 Ϩ㸬SU6600ࢆ⏝࠸ࡓ◊✲ᡂᯝ㸸 ࣭ྛ✀◚㠃ࡢほᐹ㸪ࡁᑍἲࡢ ᐃ ࣭◚㠃พฝࡢ㸱ḟඖ㸪FRASTAゎᯒ ࣭ヨᩱ⾲㠃ᛶ≧ࡢほᐹ ࡞
ϩ㸬EDSࢆ⏝࠸ࡓ◊✲ᡂᯝ㸸 ࣭ྛ✀ᮦᩱࡢᏛᡂศศᯒ ࣭ᮦᩱ୰ࡢඖ⣲ศᕸศᯒ ࡞
Ϫ㸬EBSDࢆ⏝࠸ࡓ◊✲ᡂᯝ㸸 ࣭⤖ᬗ᪉ゎᯒ
࣭㞟ྜ⤌⧊⏕ᡂ≧ែศᯒ ࣭⤖ᬗ⢏ᚄゎᯒ
࣭ෆ㒊ࡦࡎࡳゎᯒ ࡞
⏝ᡂᯝ SEMࢆ⏝࠸ࡓᮦᩱ⤌⧊࣭◚㠃ほᐹ㸪EDSࢆ⏝࠸ࡓᏛ⤌ᡂศᯒ㸪EBSDࢆ⏝
࠸ࡓ⤖ᬗ᪉ゎᯒ➼࡛㈗㔜࡞◊✲ᡂᯝࢆከࡃᚓࡓ㸬⨨⏝㛫ࡣᖺ㛫࡛㸰㸮 㸮㸮㛫ࢆ㉺࠼࡚࠾ࡾ㸪༢⣧ィ⟬୍࡛᪥࠶ࡓࡾ㸴㛫⛬ᗘ⏝ࡉࢀ࡚࠸ࡿ㸬ᙜ ヱ⨨ࢆ⏝࠸ࡓ⤖ᯝࢆྵࡴ◊✲ᡂᯝࢆ௨ୗ♧ࡍ㸬
䛆ㄽᩥ䛇㻌
1. InN NanoColumns Grown by Molecular Beam Epitaxy and Their Luminescence Properties, K. Wang, T. Araki, T. Yamaguchi, Y.T. Chen, E. Yoon, Y. Nanishi, J.
Cryst. Growth, 430 (2015) 93-97.
2. Masao Sakane, Takamoto Itoh, Hideyuki Kanayama; ͆Effect of Multiaxial Stress on Low Cycle Fatigue͇, Bulletin of JSME, Mechanical Engineering Reviews, Vol.2, No.1, (2015), pp.1-15. DOI: 10.1299/mer.14-00214
3. Takahiro Morishita, Takamoto Itoh, Masao Sakane, Hiroshi Nakamura, Masahiro Takanashi; ͆Multiaxial Fatigue Property of Ti-6Al-4V using Hollow Cylinder Specimen under Push-pull and Cyclic Inner Pressure Loading Article reference͇, International Journal of Fatigue, DOI:10.1016/j.ijfatigue.2016.02.019
4. Takahiro Morishita, Takamoto Itoh, ͆Evaluation of multiaxial low cycle fatigue life for type 316L stainless steel notched specimen under non-proportional loading͇, Theoretical and Applied Fracture Mechanics, DOI:
10.1016/j.ijpvp.2016.02.024
5. G. Dirras, M. Ota, D. Tingaud, K. Ameyama and T. Sekiguchi; ͆Microstructure evolution during direct impact loading of commercial purity Ș-titanium with harmonic structure design͇, Matveriaux & Techniques 103, 311 (2015), DOI:
10.1051/mattech/2015031, www.mattech-journal.org
6. ኴ⏣ ⨾⤮㸪䭯ᒣ 㸹ࠗ㸫⢊ᮎ෬㔠ࡢ᪂ࡋ࠸ྍ⬟ᛶ㸫ㄪ⤌⧊ไᚚἲࡼ
ࡿ㧗ᙉᗘ࣭㧗ᘏᛶᮦᩱࡢ〇࠘㸪⢊య⢊ᮎ෬㔠༠㸪vol.62(2015)㸪No.6㸪 pp297-301.
7. ኴ⏣ ⨾⤮㸪⳥ụ ᑗ୍㸪ୖ㔝 ᫂㸪䭯ᒣ 㸹ࠗㄪ⤌⧊ไᚚἲࡼࡿ㧗 ᙉᗘ࣭㧗ࡌࢇᛶࢆ᭷ࡍࡿ㔠ᒓᮦᩱࡢ〇࠘㸪ᏛᕤᏛ㸪vol.79(2015)㸪No.5㸪 pp.372-374.
8. Shoichi Kikuchi, Stefan Heinz, Dietmar Eifler, Yuta Nakamura and Akira Ueno,
“Evaluation of Very High Cycle Fatigue Properties of Low Temperature Nitrided Ti-6Al-4V Alloy Using Ultrasonic Testing Technology”, Key Engineering Materials, Vol.: Advances in Very High Cycle Fatigue, pp.118-130, in press (2016).
9. Taku Miura, Takayuki Sakakibara, Takanori Kuno, Akira Ueno, Shoichi Kikuchi and Tatsuo Sakai, “Interior-Induced Fracture Mechanism of High Cleanliness Spring Steel (JIS SWOSC-V) in Very High Cycle Regime”, Key Engineering Materials, Vol.: Advances in Very High Cycle Fatigue, pp.209-220, in press (2016).
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10. Shoichi Kikuchi, Yan Bin Zhang, Akiyoshi Sakaida, Yoshihiko Yokoyama, Akira Ueno and Tatsuo Sakai, “Statistical Duplex S-N Characteristics of Bulk
Amorphous Alloy in Rotating Bending in Very High Cycle Regime”, Key
Engineering Materials, Vol.: Advances in Very High Cycle Fatigue, pp.295-304, in press (2016).
11. Shoichi Kikuchi, Kotaro Takemura, Yosuke Hayama, Akira Ueno and Kei
Ameyama, ͆Evaluation of the fatigue properties of Ti-6Al-4V alloy with harmonic structure in 4-points bending͇, ᮦᩱ㸪Vol.64, No.11, ༳ๅ୰ (2015).
12. ୕ᾆ ᣅ㸪䬟ཎ㝯அ㸪୕ᮧ┿࿃㸪ஂ㔝㝯⣖㸪⳥ụᑗ୍㸪ୖ㔝 ᫂㸪㓇㐩 㞝㸪ࠕࣇࣛࢡࢺࢢࣛࣇࡼࡿ⇕㛫ᡂᙧࡤࡡ⏝㗰SUP7ࡢෆ㒊㉳Ⅼᆺ⑂ປ◚
ቯ࣓࢝ࢽࢬ࣒ࡢ᳨ウࠖ㸪ᮦᩱ㸪Vol.64, No.8, pp.613-619 (2015).
13. Benjamin Guennec, Akira Ueno, Tatsuo Sakai, Masahiro Takanashi, Yu Itabashi and Mie Ota, “Dislocation-based Interpretation on the Effect of the Loading Frequency on the Fatigue Properties of JIS S15C Low Carbon Steel”, International Journal of Fatigue, Vol.70, pp.328-341 (2015).
14. ᰘ⏣ 㥴, ኳ㇂ ㅍ, ᮡᒣ 㐍, Ᏻ⸨ ጁᏊ, 㟼㟁ᐜ㔞ᆺືᏊࢆ⏝࠸ࡓPMMA ࡢ⑂ປヨ㦂, 㟁ẼᏛㄽᩥㄅE㸦ࢭࣥࢧ࣭࣐ࢡ࣐ࣟࢩࣥ㒊㛛ㄅ㸧, 135/7, 257, (2015).
࠙ⴭ᭩ࠚ
1. Kusaka, T., "Toughening Mechanisms in Composite Materials", 2015ᖺ9᭶, Woodhead Publishing, ➨9❶.
2.ୖ㔝 ᫂ 㸪ࠕPEFCࡢෆ㒊⌧㇟࣭ᛂᶵᵓホ౯࣭ゎᯒᢏ⾡ࠖ㸪S&Tฟ∧(2015)
➨6❶㸬
࠙ᅜ㝿㆟࣭ㄽᩥࠚ
1. Growth and Characterization of Thin InN Films Grown by RF-MBE, A. Usuda, K.
Komura, M. Aranami, T. Araki, and Y. Nanishi, The 6th International Symposium on Growth of Ϫ-nitrides, Hamamatsu, Japan (2015.11)
2. Takamoto Itoh, Takahiro Morishita, Masao Sakane; ͆Evaluation and Visualization of Multiaxial Stress and Strain States under Non-proportional Loading͇, First International Workshop on Challenges in Multiaxial Fatigue Urbino, Italy, 22-24 April 2015
3. Takahiro Morishita, Takamoto Itoh, Zhenlong Bao; ͆Fatigue Life of Type 316 Stainless Steel under Wide Ranged Multiaxial Loading͇, 14th International Conference on Pressure Vessel Technology Proceedings of ICPVT̺14, 23̽26 September, 2015, Shanghai, China
4. Takamoto Itoh, Masao Sakane, Takahiro Morishita, Hiroshi Nakamura, Masahiro
Takanashi; ͆Crack mode and life of Ti-6Al-4V under multiaxial low cycle fatigue͇, The 5th International Conference on CRACK PATHS (CP 2015), Ferrara, Itally 16-18 September 2015
5. Masao Sakane, Mineo Mozaki, Takamoto Itoh, Takafumi Tsurui; ͆Low cycle fatigue testing using miniature specimens͇, Thirty-Second Spanish Conference on Fracture and Structural Integrity (32 SCFSI) ESIS TC-10 Workshop
Enviromentaly Assisted Cracking & Hydorogen Embriilement, Zamora, Spain, 27-29 April 2015
6. Muhammad, A.B.A.H., Kusaka, T, Tanageshima, R., "Effect of Loading Frequency on Mixed Mode Fatigue Crack Growth Behavior in CFRP Adhesive Joints", International Conference on Advanced Technology in Experimental Mechanics 2015, October 4-8, 2015, (Toyohashi, Japan).
7. Zailani, S., Kawamura, Y., Kusaka, T., Tanegashima, R., Takahashi, J., "Effect of Materials Composition on Progressive Crashing Behavior of Composite
Laminates", International Conference on Advanced Technology in Experimental Mechanics 2015, October 4-8, 2015, (Toyohashi, Japan).
8. Oka, N., Kusaka, T, Tanageshima, R., "Mixed Mode Fracture Behavior of CFRP Adhesive Joints under Static and Impact Loading", International Conference on Advanced Technology in Experimental Mechanics 2015, October 4-8, 2015, (Toyohashi, Japan).
9. Miyawaki, A., Kitai, Y., Kusaka, T., Tanegashima, R., Tanaka, Y., Hineno, Y.,
"Numerical Analysis of Sealing Mechanism in Triple Offset Butterfly Valves", 5th International Symposium on Functionalization and Applications of Soft/Hard Materials, January 21-24, 2016, (Kusatsu, Japan).
10. Ohara, M., Han, X., Tanegashima, R., Kusaka, T., "Application of Fine Blanking Technique to Precision Punching of CFRP Plates", 5th International Symposium on Functionalization and Applications of Soft/Hard Materials, January 21-24, 2016, (Kusatsu, Japan).
11. Honda, H., Seike, N., Tanegashima, R., Kusaka, T., "A Novel Joining Technique for Composite Laminates by Termal Decomposition Process Using Cr2O3 Catalyst", 5th International Symposium on Functionalization and Applications of Soft/Hard Materials, January 21-24, 2016, (Kusatsu, Japan).
12. Yusop, H., Oka, N., Tanegashima, R., Kusaka, T., "Experimental Characterization of Impact Fracture Toughness of CFRP Adhesive Joints Using SHPB Technique", 5th International Symposium on Functionalization and Applications of Soft/Hard Materials, January 21-24, 2016, (Kusatsu, Japan).
13. Syafiq, M., Aqmal, M., Fujita, M., Tanegashima, R, Kusaka, T., "Effect of Loading Rate on Fatigue Crack Growth Behavior in CFRP Adhesive Joints", 5th
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International Symposium on Functionalization and Applications of Soft/Hard Materials, January 21-24, 2016, (Kusatsu, Japan).
14. Mie Ota, Sanjay Kumar Vajpai, Han Yu, Hidenori Maezawa and Kei Ameyama;
͆Novel Microstructure Design for High Mechanical Performance Pure
Titanium͇, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
15. Sanjay Kumar Vajpai, Mie Ota, Kei Ameyama, Tomoyuki Watanabe, Ryo Maeda, David Tingaud and Guy Dirras; ͆HARMONIC STRUCTURE: AN EFFECTIVE TAILORED HETEROGENEOUS MICROSTRUCTURAL DESIGN TO
STRENGTHEN TI-6AL-4V ALLOY͇, The 13th World conference on Titanium, Aug. 16-20, 2015, San Diego, USA.
16. Mie Ota, Sanjay Kumar Vajpai, Hidenori Maezawa, Hikaru Kawabata and
Ameyama; ͆Innovative Materials Design for High Performance Pure Titanium͇, The 13th World conference on Titanium, Aug. 16-20, 2015, San Diego, USA.
17. Kei Ameyama, Mie Ota and Sanjay Kumar Vajpai; ͆Deformation Mechanism of Harmonic Structure Materials with High Strength and High Ductility͇,
International Workshop on Giant Straining Process for Advanced Materials in 2015 (GSAM2015), Sep. 3-6, 2015, Fukuoka, Japan.
18. R. Maeda, T. Watanabe, Shota Yokoyama, M. Ota, S. K. Vajpai and K. Ameyama,
͆Unique mechanical properties of Harmonic Structure Designed Ti-6Al-4V compact produced by High Pressure Gas Milling͇, Nov. 8-10, 2015, Kyoto, Japan.
19. Takayuki Sahara, Sanjay Kumar Vajpai, Mie Ota and Kei Ameyama; ͆Fabrication of Harmonic Structure Pure Al by Extrusion͇, Nov. 8-10, 2015, Kyoto, Japan.
20. Kiichi Sawai, Daiki Ueda, Sanjay K. Vajpai, Mie Ota and Kei Ameyama; ͆Unique Deformation Behavior in Harmonic Structure Designed Pure Iron Compacts͇, Nov. 8-10, 2015, Kyoto, Japan.
21. Yamato Suto, Takato Yamada, Mie Ota, Sanjay K. Vajpai and Kei Ameyama;
͆Strain Rate Dependence of Harmonic Structure Designed Pure Cu͇, Nov. 8-10, 2015, Kyoto, Japan.
22. Sanjay Kumar Vajpai, Mie Ota, Kei Ameyama; ͆HIGH PERFORMANCE ADVANCED STRUCTURAL MATERIALS THROUGH AN INNOVATIVE GRADIENT MICROSTRUCTURE HARMONIC STRUCTURE DESIGN͇, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
23. Bhupendra Sharma, Sanjay Kumar Vajpai and Kei Ameyama; ͆A Novel Powder Metallurgy Processing Approach to Prepare Fine-Grained ș Ti-Nb alloy from Titanium Hydride Powder͇, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
24. Shimin Chen, C. -H. Chuang and K. Ameyama; ͆PORTABLE
IMPEDANCE-BASED IMMUNOASSAY DEVICE FOR DETECTION OF BLADDER CANCER͇, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
25. Satoshi Matsuda, Mie Ota, Kei Ameyama, Pierre O Renault, Pierre Godard, Damien Faurie, Tarik Sadat, David Tingaud and Guy Dirras; ͆In situ X-ray diffraction study of mechanical behavior of harmonic structure design Ti-6Al-4V alloy͇, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
26. H. Maezawa, R. Maeda, M. Ota, S. K. Vajpai and K. Ameyama; ͆Unique Deformation Behavior on Strain Rate Sensitivity of Harmonic Structure Designed Ti-6Al-4V Alloy͇, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
27. Tomoyuki Kageyama, Nur Zalikha Binti Khalil, Takayuki Sahara, Mie Ota, Kei Ameyama, Chaoli Ma; ͆The creation of harmonic structured composite with pure aluminum and Silicon͇, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
28. Daiki Ueda, A. Hocini, Mie Ota, Sanjay K. Vajpai, D Tingaud, K. Ameyama and G.
Dirras; ͆Microstructure evolution and Mechanical behavior under shear loadings of Ti-25Nb-25Zr alloy processed by Mechanical Milling͇, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan.
21-24, 2016, Kusatsu, Japan.
29. Masashi Nakatani, Yuya Fujiki, Mie Ota, Sanjay. K. Vajpai and Kei. Ameyama;
͆Mechanical properties of harmonic structure designed SUS304L austenitic stainless steel͇, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
30. Zhang Yitan, Zheng Ruixiao, Bhupendra Sharma, Cao-li and Kei Ameyama;
͆Microstructure and Mechanical properties of Al-5083/ B4C composites synthesized through spark plasma sintering and rolling͇, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan.
21-24, 2016, Kusatsu, Japan.
31. Shota Yokoyama, Ryo Maeda, Azziz Hocini, Ota Mie, Sanjay K.Vajpai, avid Tingaud, K Ameyama and Guy Dirras; ͆Influence of thermo-mechanical treatments on the mechanical behavior under shear loadings of
Ti-15V-3Cr-3Sn-3Al alloy processed by High Pressure Gas Jet Milling”, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
32. K. Ueno and T. Ando, Effect of Temperature and Scale on Plastic Deformation of
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This document is provided by JAXA.
Single Crystal Si, 28th International Microprocesses and Nanotechnology Conference㸦2015/11㸪ᐩᒣ㸧
33. Taku MIURA, Tatsuhiro IWASHITA, Akira UENO, “Evaluation of Fatigue Crack Growth for Chromium Molybdenum Steel (JIS SCM435) by Means of Real-time Observations”, 5th International Symposium on Functionalization and
Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
34. Takayuki ISHIGURI, Sho YOSHIDA, Shoichi KIKUCHI and Akira UENO,
“Evaluation of Effects of Low Temperature Nitriding on 4-points Bending Fatigue Properties of Ti-6Al-4V Alloy and in-situ Observation of Fatigue Crack
Propagation”, 5th International Symposium on Functionalization and Applications of Soft/Hard materials, Jan. 21-24, 2016, Kusatsu, Japan.
࠙ᅜෆᏛࠚ
1. ᪫ྜྷ㞞, ఀ⸨㝯ᇶ, 18ྡ㸪ࠗヨ㦂ἲᶆ‽‽ᣐࡋࡓ㖄⣔࠾ࡼࡧ㠀㖄⣔ࡣ
ࢇࡔࡢຊᏛⓗᇶ♏ࢹ࣮ࢱ㞟ᵓ⠏࠘㸪Mate2015 ➨21ᅇࠕ࢚ࣞࢡࢺࣟࢽࢡࢫ
࠾ࡅࡿ࣐ࢡࣟ᥋ྜ࣭ᐇᢏ⾡ࠖࢩ࣏ࣥࢪ࣒࢘㸪2015ᖺ2᭶3᪥㹼4᪥㸪
ࣃࢩࣇࢥᶓ
2. 㛗ᑿ⿱㈗, ఀ⸨㝯ᇶ, ᆏ᰿ᨻ⏨, ᒣୗ‶⏨, እⷵὒ㸪ࠗSn-1.0Ag-0.7Cu⣔ࡣ
ࢇࡔࡢࢡ࣮ࣜࣉ≉ᛶཬࡰࡍῧຍඖ⣲ࡢᙳ㡪࠘㸪➨29ᅇ ࢚ࣞࢡࢺࣟࢽࢡࢫ ᐇᏛᏘㅮ₇㸪2015ᖺ3᭶16᪥㹼18᪥㸪ᮾிᏛᮏ㒓࢟ࣕࣥࣃ
ࢫ
3. ᭷‶ᾏᚿ, ᪥ୗ㈗அ, ✀Ꮚᓥுኴ,"CFRP᥋╔᥋ྜ⥅ᡭࡢ⑂ປࡁ㐍ᒎᣲື
ཬࡰࡍ㈇Ⲵ࿘ᮇࡢᙳ㡪",➨64ᮇᏛ⾡ㅮ₇(᪥ᮏᮦᩱᏛ), ᒣᙧᏛ(⡿
ἑᕷ), May 23-24, 2015.
4. ྡ᳚ኴ, ᪥ୗ㈗அ, ✀Ꮚᓥுኴ, 㧗ᶫ₶ᖹ,"⾪ᧁⲴ㔜ୗ࠾ࡅࡿ⇕◳ᛶ CFRP✚ᒙᮦࡢ㏲ḟᅽቯᣲືࡑࡢホ౯ἲ ", ➨64ᮇᏛ⾡ㅮ₇(᪥ᮏᮦᩱ
Ꮫ),ᒣᙧᏛ(⡿ἑᕷ), May 23-24, 2015.
5. ᪥ୗ㈗அ, Ἑᮧ♸㈗, Zailani. S., ྡ᳚ኴ, ✀Ꮚᓥுኴ, 㧗ᶫ₶ᖹ,"CFRP ᮦ ࡢ㏲ḟᅽቯ㐣⛬࠾ࡅࡿ࢚ࢿࣝࢠ࣮྾≉ᛶཬࡰࡍᮦᩱᵓᡂࡢᙳ㡪",➨
1ᅇᮦᩱWEEK, October 13-17, 2015.
6. ཎᑗྐ, 㡑᪫, ᪥ୗ㈗அ, ✀Ꮚᓥுኴ,"ࣇࣥࣈࣛࣥ࢟ࣥࢢἲࢆ⏝࠸ࡓ CFRP✚ᒙᮦࡢᡴࡕᢤࡁຍᕤ",➨1ᅇᮦᩱWEEK, October 13-17, 2015.
7. ྡ᳚ኴ, Ἑᮧ♸㈗, Zailani S., ᪥ୗ㈗அ, ✀Ꮚᓥுኴ, 㧗ᶫ₶ᖹ,"CFRPᮦ ࡢ⾪ᧁ࢚ࢿࣝࢠ࣮྾≉ᛶཬࡰࡍᮦᩱᵓᡂࡢᙳ㡪",➨1ᅇᮦᩱWEEK, October 13-17, 2015.
8. ᯘᫀᖹ, ᭷‶ᾏᚿ, ᪥ୗ㈗அ, ✀Ꮚᓥுኴ,"CFRP᥋╔᥋ྜ㒊ᮦࡢΰྜ࣮ࣔ
ࢻ⑂ປࡁ㐍ᒎᣲືཬࡰࡍ㈇Ⲵ㏿ᗘࡢᙳ㡪",➨1ᅇᮦᩱWEEK, October 13-17, 2015.
9. Yusop, H., ᒸ┤㍤, ✀Ꮚᓥுኴ, ᪥ୗ㈗அ,"Experimental Characterization of Mixed Mode Impact Fracture Toughness of CFRP Adhesive Joint Using SHBP Technique",➨1ᅇᮦᩱWEEK, October 13-17, 2015.
10. ᪥ୗ㈗அ, Ἑᮧ♸㈗, Zailani, S., ྡ᳚ኴ, ✀Ꮚᓥுኴ, 㧗ᶫ₶ᖹ,"CFRPᮦ ࡢ㏲ḟᅽቯᣲືཬࡰࡍᮦᩱᵓᡂࡢᙳ㡪",➨53ᅇ㣕⾜ᶵࢩ࣏ࣥࢪ࣒࢘(᪥ᮏ
⯟✵ᏱᐂᏛ), ᯇᒣᕷ⥲ྜࢥ࣑ࣗࢽ ࢸࢭࣥࢱ࣮(ᯇᒣᕷ), November 11-13, 2015.
11. ᭷‶ᾏᚿ, ᯘᫀᖹ, ✀Ꮚᓥுኴ, ᪥ୗ㈗அ,"CFRP᥋╔᥋ྜ㒊ᮦࡢ࣮ࣔࢻI+II
⑂ປࡁ㐍ᒎ≉ᛶཬࡰࡍ㈇Ⲵ㏿ᗘࡢᙳ㡪",M&M 2015ᮦᩱຊᏛ࢝ࣥࣇ
ࣞࣥࢫ(᪥ᮏᶵᲔᏛ), ᠕⩏ሿᏛ(ᶓ ᕷ), November 21-23, 2015.
12. Ἑᮧ♸㈗, Zailani, S., ྡ᳚ኴ, ✀Ꮚᓥுኴ, ᪥ୗ㈗அ, 㧗ᶫ₶ᖹ,"㏲ḟᅽ ቯ㐣⛬࠾ࡅࡿ CFRPᮦࡢ࢚ࢿࣝࢠ࣮྾≉ᛶཬࡰࡍᮦᩱᵓᡂࡢᙳ㡪
",M&M 2015ᮦᩱຊᏛ࢝ࣥࣇࣞࣥࢫ(᪥ᮏᶵᲔᏛ), ᠕⩏ሿᏛ(ᶓ
ᕷ), November 21-23, 2015.
13. ᒸ┤㍤, Yusop, H., ᓥⲡኴ, ▼⏣ஂ႐, ✀Ꮚᓥுኴ, ᪥ୗ㈗அ,"⾪ᧁⲴ㔜ୗ
࠾ࡅࡿCFRP᥋╔᥋ྜ㒊ᮦࡢࡁ㐍ᒎᣲື", ➨7ᅇ᪥ᮏ」ྜᮦᩱ㆟(᪥
ᮏᮦᩱᏛ), ி㒔ࢸࣝࢧ(ி㒔ᕷ), March 16-18, 2016.
14. 㡑᪫, ཎᑗྐ, ✀Ꮚᓥுኴ, ᪥ୗ㈗அ,"ࣇࣥࣈࣛࣥ࢟ࣥࢢἲࢆ⏝࠸ࡓ CFRP✚ᒙᮦࡢᡴᢤຍᕤ",➨7ᅇ᪥ᮏ」ྜᮦᩱ㆟(᪥ᮏᮦᩱᏛ), ி㒔ࢸ
ࣝࢧ(ி㒔ᕷ), March 16-18, 2016.
15. ⸨ಇྐ, ୰ᓥኵ, ᒾᓮᗣᙪ, ᮡຬ㍜, ᪥ୗ㈗அ,"」ྜᮦᩱࣆࣥࢪࣙ
ࣥࢺࡢ⧄⥔㓄ྥຊᏛⓗ≉ᛶ",➨7ᅇ᪥ᮏ」ྜᮦᩱ㆟(᪥ᮏᮦᩱᏛ), ி 㒔ࢸࣝࢧ(ி㒔ᕷ), March 16-18, 2016.
16. ᶓᒣ ᑗኴ㸪๓⏣ ு㸪Ώ㑔 ᬛஅ㸪Sanjay Kumar Vajpai㸪ኴ⏣ ⨾⤮㸪䭯 ᒣ 㸹ࠗ㧗ᅽ࢞ࢫࢪ࢙ࢵࢺ࣑ࣜࣥࢢἲࡼࡾㄪ⤌⧊ไᚚࡉࢀࡓ
Ti-6Al-4Vྜ㔠ࡢኚᙧᣲື࠘㸪⢊య⢊ᮎ෬㔠༠ᖹᡂ27ᖺᗘᏘ㸪2015
ᖺ5᭶26-28᪥㸪᪩✄⏣Ꮫᅜ㝿㆟ሙ㸪ᮾி
17. ୖ⏣ グ㸪⃝ ㈗୍㸪ኴ⏣ ⨾⤮㸪䭯ᒣ 㸹ࠗㄪ⤌⧊ไᚚࡉࢀࡓ⣧
㕲ࡢ⤌⧊ᙧᡂ≉␗࡞ኚᙧᣲື࠘㸪⢊య⢊ᮎ෬㔠༠ᖹᡂ27ᖺᗘᏘ㸪
2015ᖺ5᭶26-28᪥㸪᪩✄⏣Ꮫᅜ㝿㆟ሙ㸪ᮾி
18. ๓ἑ ⱥ㸪ᕝ⏿ ග㸪㯮ᕝ 㸪Sanjay Kumar Vajpai㸪ኴ⏣ ⨾⤮㸪䭯 ᒣ 㸹ࠗᕤᴗ⏝⣧ࢳࢱࣥ⢊ᮎࢆ⏝࠸ࡓ㧗ᅽ࢞ࢫࢪ࢙ࢵࢺ࣑ࣜࣥࢢἲࡼࡿ
ㄪ⤌⧊ไᚚ࠘㸪⢊య⢊ᮎ෬㔠༠ᖹᡂ27ᖺᗘᏘ㸪2015ᖺ5᭶26-28
᪥㸪᪩✄⏣Ꮫᅜ㝿㆟ሙ㸪ᮾி
19. ቑ⏣ ୍ᶞ㸪ᒸ⏣ 㥴㸪ୗᇛ ၨ♸㸪Sanjay Kumar Vajpai㸪ኴ⏣ ⨾⤮㸪䭯 ᒣ 㸹ࠗ↓㟁ゎࢽࢵࢣࣝࡵࡗࡁἲࡼࡿ⣧ࢽࢵࢣࣝࡢㄪ⤌⧊ᙧᡂᶵᲔ
ⓗ≉ᛶ࠘㸪⢊య⢊ᮎ෬㔠༠ᖹᡂ27ᖺᗘᏘ㸪2015ᖺ5᭶26-28᪥㸪
᪩✄⏣Ꮫᅜ㝿㆟ሙ㸪ᮾி
−81−
This document is provided by JAXA.
20. 䭯ᒣ 㸪ኴ⏣ ⨾⤮㸪Guy Dirras㸪David Tingaud㸹ࠗ⣧ࢳࢱࣥㄪ⤌⧊ᮦ
ᩱࡢ㧗㏿ኚᙧࡼࡿ⤌⧊ኚ࠘㸪᪥ᮏ㕲㗰༠➨170ᅇ⛅Ꮨㅮ₇㸪2015
ᖺ9᭶16-18᪥㸪ᕞᏛఀ㒔࢟ࣕࣥࣃࢫ㸪⚟ᒸ
21. Sanjay Kumar Vajpai, Choncharoen Sawangrat and Kei Ameyama; ͆Effect of bimodal harmonic structure design on the deformation behavior and mechanical properties of Co-Cr-Mo alloys͇ 㸪᪥ᮏ㕲㗰༠➨170ᅇ⛅Ꮨㅮ₇㸪2015
ᖺ9᭶16-18᪥㸪ᕞᏛఀ㒔࢟ࣕࣥࣃࢫ㸪⚟ᒸ
22. Han Yu㸪Ώ㑔 ⫱ክ㸪䭯ᒣ 㸹࣐ࠗࣝࢳࢫࢣ࣮ࣝFEMࡼࡿㄪ⤌⧊ᮦ
ᩱࡢ≉␗࡞ኚᙧᣲື࠘㸪᪥ᮏ㕲㗰༠➨170ᅇ⛅Ꮨㅮ₇㸪2015ᖺ9᭶
16-18᪥㸪ᕞᏛఀ㒔࢟ࣕࣥࣃࢫ㸪⚟ᒸ
23. ᑠⳢ ಟྖ㸪䭯ᒣ㸹ࠗ⣧Niㄪ⤌⧊ᮦᩱࡢ⤌⧊ຊᏛ≉ᛶ࠘㸪᪥ᮏ㕲㗰༠
➨42ᅇᏛ⏕࣏ࢫࢱ࣮ࢭࢵࢩࣙࣥⓎ⾲㸪9᭶17᪥㸪ᕞᏛఀ㒔࢟ࣕࣥࣃ
ࢫ I2CNER㸪⚟ᒸ
24. ᒸ⏣ 㥴㸪ቑ⏣ ୍ᶞ㸪ኴ⏣ ⨾⤮㸪Sanjay Kumar Vajpai㸪䭯ᒣ 㸪Cinzia
Menapace㸹ࠗ⣧Niㄪ⤌⧊ᮦᩱࡢ㧗 ኚᙧᣲື࠘㸪⢊య⢊ᮎ෬㔠༠ᖹᡂ
27ᖺᗘ⛅Ꮨ㸪2015ᖺ11᭶11-13᪥㸪ி㒔Ꮫⓒ࿘ᖺィྎグᛕ㤋㸪ி
㒔
25. బཎ ㈗⾜㸪ᒸ⏣ 㥴㸪㛗㔝 ᬛோ㸪ኴ⏣ ⨾⤮㸪䭯ᒣ 㸹ࠗAZ91D࣐ ࢢࢿࢩ࣒࢘ྜ㔠ㄪ⤌⧊ไᚚᮦᩱࡢ⤌⧊ᶵᲔⓗ≉ᛶ࠘㸪⢊య⢊ᮎ෬㔠༠
ᖹᡂ27ᖺᗘ⛅Ꮨ㸪2015ᖺ11᭶11-13᪥㸪ி㒔Ꮫⓒ࿘ᖺィྎグᛕ 㤋㸪ி㒔
26. 㡲⸨ 㸪ᒣ⏣ ᓫ㸪ኴ⏣ ⨾⤮㸪Sanjay Kumar Vajpai㸪䭯ᒣ 㸹ࠗㄪ
⤌⧊ࢆ᭷ࡍࡿ⣧㖡ࡢ㧗 ኚᙧᣲື࠘㸪⢊య⢊ᮎ෬㔠༠ᖹᡂ27ᖺᗘ⛅Ꮨ
㸪2015ᖺ11᭶11-13᪥㸪ி㒔Ꮫⓒ࿘ᖺィྎグᛕ㤋㸪ி㒔
27. ๓⏣ ு㸪Ώ㑔 ᬛஅ㸪ΏᏲ ㈗㸪ኴ⏣ ⨾⤮㸪䭯ᒣ 㸹ࠗTi-6Al-4V
ྜ㔠ࡢ㧗ᅽ࢞ࢫࢪ࢙ࢵࢺ࣑ࣜࣥࢢἲࡼࡿㄪ⤌⧊ไᚚ࠘㸪⢊య⢊ᮎ෬㔠༠
ᖹᡂ27ᖺᗘ⛅Ꮨ㸪2015ᖺ11᭶11-13᪥㸪ி㒔Ꮫⓒ࿘ᖺィྎグ ᛕ㤋㸪ி㒔
28. ୰㇂ ோ㸪⸨ᮌ ஓ㸪ኴ⏣ ⨾⤮㸪䭯ᒣ 㸹ࠗSUS304Lㄪ⤌⧊ᮦᩱࡢ ኚᙧཬࡰࡍ⤌⧊ࡢᙳ㡪࠘㸪⢊య⢊ᮎ෬㔠༠ᖹᡂ27ᖺᗘ⛅Ꮨ㸪2015
ᖺ11᭶11-13᪥㸪ி㒔Ꮫⓒ࿘ᖺィྎグᛕ㤋㸪ி㒔
29. ⃝ ㈗୍㸪ኴ⏣ ⨾⤮㸪䭯ᒣ 㸹ࠗ⣧㕲ࡢㄪ⤌⧊ไᚚᮦᩱࡢኚᙧᣲື࠘㸪
⢊య⢊ᮎ෬㔠༠ᖹᡂ27ᖺᗘ⛅Ꮨ㸪2015ᖺ11᭶11-13᪥㸪ி㒔Ꮫ
ⓒ࿘ᖺィྎグᛕ㤋㸪ி㒔
30. 䭯ᒣ 㸪బཎ㈗⾜㸪ኴ⏣ ⨾⤮㸹ࠗ⣧Alࣂࣝࢡᮦࡢຍᕤ⇕ฎ⌮ࡼࡿㄪ
⤌⧊ไᚚ࠘㸪➨158ᅇ᪥ᮏ㔠ᒓᏛᏘ㸪2016ᖺ3᭶23-25᪥㸪ᮾி
⌮⛉Ꮫ䭊㣭࢟ࣕࣥࣃࢫ㸪ᮾி
31. ୰㇂ ோ㸪⸨ᮌ ஓ㸪ኴ⏣ ⨾⤮㸪Sanjay Kumar VAJPAI㸪䭯ᒣ 㸹
ࠗSUS304Lㄪ⤌⧊ᮦᩱࡢ㧗 ኚᙧᣲື࠘㸪➨158ᅇ᪥ᮏ㔠ᒓᏛᏘ
㸪2016ᖺ3᭶23-25᪥㸪ᮾி⌮⛉Ꮫ䭊㣭࢟ࣕࣥࣃࢫ㸪ᮾி
32. ኴ⏣ ⨾⤮㸪༡㇂ ᶞ㸪Sanjay Kumar VAJPAI㸪䭯ᒣ 㸪Kaveh EDALATI㸪 ᇼ⏣ ၿ㸹ࠗHPTຍᕤ⇕ฎ⌮ࡉࢀࡓ㸦Ș+Ț㸧┦ࢫࢸࣥࣞࢫ㗰⢊ᮎࡢ⤌
⧊ᙧᡂ࠘㸪➨158ᅇ᪥ᮏ㔠ᒓᏛᏘ㸪2016ᖺ3᭶23-25᪥㸪ᮾி⌮⛉
Ꮫ䭊㣭࢟ࣕࣥࣃࢫ㸪ᮾி
33. Rajamallu Karre, Manish K. Niranjan, Sanjay Kumar Vajpai, Kei Ameyama and Suhash Ranjan Dey; ͆Investigation of ș phase stability in binary Ti-Nb alloys using Density Functional Theory͇㸪 ➨158ᅇ᪥ᮏ㔠ᒓᏛᏘ㸪2016ᖺ
3᭶23-25᪥㸪ᮾி⌮⛉Ꮫ䭊㣭࢟ࣕࣥࣃࢫ㸪ᮾி
34. ኴ⏣୍㍤,Ᏻ⸨ጁᏊ,࣐ࢡࣟࢫࢣ࣮ࣝࡢB࣭Geࢩࣜࢥࣥぢࡽࢀࡿࢭ࣮ࣞ
ࢩࣙࣥᆺࡢᛂຊ࣮ࡦࡎࡳ㛵ಀ,㟁ẼᏛ࣐ࢡ࣐ࣟࢩ࣭ࣥࢭࣥࢧࢩࢫࢸ࣒◊
✲㸪(2015/9, 㜰)
35. ୖ㔝ᖹ,Ᏻ⸨ጁᏊ,㧗ࡦࡎࡳ㏿ᗘࡢᘬᙇヨ㦂࠾ࡅࡿࢼࣀSiࡢ⬤ᛶ㸫ᘏᛶ 㑄⛣ ᗘࡑࡢࢫࢣ࣮ࣝຠᯝ,㟁ẼᏛ࣐ࢡ࣐ࣟࢩ࣭ࣥࢭࣥࢧࢩࢫࢸ࣒◊
✲㸪(2015/9, 㜰)
36. ኴ⏣୍㍤,Ᏻ⸨ጁᏊ,㧗⃰ᗘ⣧≀ࢻ࣮ࣉࢩࣜࢥࣥࡢ㧗 ᘬᙇヨ㦂㸪➨32ᅇ ࠕࢭࣥࢧ࣭࣐ࢡ࣐ࣟࢩࣥᛂ⏝ࢩࢫࢸ࣒ࠖࢩ࣏ࣥࢪ࣒࢘㸪㸦2015/10㸪᪂
₲㸧
37. ୖ㔝ᖹ,୰ᮧ┿ஓ㸪Ᏻ⸨ጁᏊ,㟁Ꮚ㢧ᚤ㙾ࡑࡢሙほᐹ⏝ᘬᙇヨ㦂ࢹࣂࢫࡢ 㛤Ⓨ,➨32ᅇࠕࢭࣥࢧ࣭࣐ࢡ࣐ࣟࢩࣥᛂ⏝ࢩࢫࢸ࣒ࠖࢩ࣏ࣥࢪ࣒࢘㸪 㸦2015/10㸪᪂₲㸧
38. ຍ⸨ྑஓ㸪ୖ㔝 ᫂㸪すᇉᆅ㸪ࠕෆᅽᘧ㧗ᅽỈ⣲ἲࢆ⏝࠸ࡓ 686/ ࡢ⑂
ປ≉ᛶཬࡰࡍ㧗ᅽỈ⣲࢞ࢫࡢᙳ㡪ホ౯ࠖ㸪➨ ᮇ᪥ᮏᮦᩱᏛᏛ⾡ㅮ₇
㸦㸪ᒣᙧ㸧
39. ୖ㔝᫂㸪ᓟᓊఀ⧊㸪㧗᰿┿㸪ෆ⏣⿱㸪ࠕᅛయ㧗ศᏊᙧ⇞ᩱ㟁ụ⏝㟁ゎ㉁
⭷ࡢࢼࣀࣥࢹࣥࢱ࣮ࢆ⏝࠸ࡓຎホ౯ࠖ㸪➨ ᮇ᪥ᮏᮦᩱᏛᏛ⾡ㅮ₇
㸦㸪ᒣᙧ㸧
40. ᪩Ỉὒ㸪⳥ụᑗ୍㸪ྜྷ⏣ ⩧㸪䭯ᒣ㸪ୖ㔝᫂㸪ࠕㄪ⤌⧊ࢆ᭷ࡍࡿ
7L$O9 ྜ㔠ࡢ Ⅼ᭤ࡆ⑂ປ≉ᛶホ౯ࠖ㸪᪥ᮏᶵᲔᏛ ᖺᗘᖺḟ
㸦㸪ᮐᖠ㸧
41. ௰⫕㸪ୖ㔝᫂㸪ᑠᯘ⠜ྐ㸪ᶓᒣᙪ㸪㓇㐩㞝㸪ቃ⏣ᙲⰾ㸪⳥ụᑗ୍㸪 ࠕ Ⅼ᭤ࡆヨ㦂࠾ࡅࡿ =U ᇶࣂࣝࢡ㔠ᒓ࢞ࣛࢫࡢ⪏㣗ᛶ㛵ࡍࡿ◊✲ࠖ㸪᪥
ᮏᶵᲔᏛ ᖺᗘᖺḟ㸦㸪ᮐᖠ㸧
42. ୖ㔝᫂㸪▼ᶫ┤ஓ㸪୕ᡂ༟㸪Ἑ㔝Ύᙪ㸪ࠕ㔠ᒓ〇ࢺ̿ࢩࣙࣥࣂࢿࡢ㉸㧗ࢧ
ࢡࣝ⑂ປ≉ᛶホ౯ࠖ㸪᪥ᮏᮦᩱᏛᮦᩱࢩ࣏ࣥࢪ࣒࢘ⱝᡭᏛ⏕◊✲Ⓨ⾲
㸦㸪ி㒔㸧
43. ୖ㔝᫂㸪すᇉᆅ㸪ຍ⸨ྑஓ㸪ࠕෆᅽᘧ㧗ᅽỈ⣲ἲࢆ⏝࠸ࡓ࣑ࣝࢽ࣒࢘
−83−
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