論文発表
非鉄信頼性評価拠点メンバーが、2021年度以降に発表した論文の一覧です。
2023年
【信頼性評価チーム】
(2) “AZ80マグネシウム合金/A6005Cアルミニウム合金爆発圧着材の接合界面組織および機械的性質に及ぼす焼鈍処理の影響”, 成田麻未, 淺井康之介, 森久史, 斎藤尚文, 千野靖正, 佐藤尚, 渡辺義見:溶接学会論文集 41 (2023) in press.
(3) “Improving the stretch formability of a heat-treatable magnesium–aluminum–calcium–manganese alloy by copper addition at the parts-per-million-level”, M.Z. Bian, X.S. Huang, Y. Chino: Mater. Sci. Eng. A (2023) in press.
【構造解析・欠陥評価チーム】
【リサイクル炭素繊維評価チーム】
2022年
【信頼性評価チーム】
(1) “Improving mechanical properties of an explosive-welded magnesium/aluminum
clad plate by subsequent hot-rolling”, M.Z. Bian, X.S. Huang, N. Saito,
Y. Chino: J. Alloys Compd. 898 (2022) 162957.
(2) “Mg-9%Al-1%Zn-2%Ca合金押出材およびMIG溶接材,TIG溶接材の平面曲げ疲労特性”, 斎藤尚文, 上田祐規, 城戸太司,
井上正士, 松本敏治, 上田光二, 石川武, 千野靖正:軽金属 72 (2022) 8-15.
(3) “Simulation-aided analysis on mechanical properties of dilute Mg-Zn-Ca
alloy sheets”, Y. Matsuoka, M.Z. Bian, X.S Huang, Y. Tsukada, T. Koyama,
Y. Chino: J. Alloys Comd. 906 (2022) 164285.
(4) “Mg-9%Al-1%Zn-2%Ca合金FSW継手の平面曲げ疲労特性”, 斎藤尚文、上田祐規、城戸太司、井上正士、松本敏治、行武栄太郎、千野靖正:軽金属 72 (2022) 133-138.
(5) “Corrosion of linear-friction-welded AZ91 and AZX912 Mg-Al alloys”,
I. Nakatsugawa, P. Wanjara, L.A. Villegas-Armenta, J. Gholipour, M. Pekguleryuz,
Y. Chino: J. Electrochem. Soc. 169 (2022) 031508.
(6) “Improvement of deep drawing formability of Mg-6Al-1Zn magnesium alloy
sheets with high strength utilizing aging precipitation”, X.S. Huang, M.Z.
Bian, Y. Chino: Scr. Mater. 215 (2022) 114709.
(7) “マグネシウム/アルミニウム合金爆発圧着材の界面組織,耐食性および機械的性質に及ぼすマグネシウム合金組成の影響”, 淺井康之介、成田麻未、佐藤尚、渡辺義見、森久史、斎藤尚文、中津川勲、千野靖正:軽金属
72 (2022) 255-264.
(8) “マグネシウム合金 /アルミニウム合金爆着クラッド材における界面の金属組織の特徴”, 成田麻未, 森久史, 佐藤尚, 渡辺義見, 斎藤尚文, 千野靖正, 花野嘉紀, 山田吉徳, 箕田正, 田中宏樹:軽金属溶接
60 (2022) 288-295.
(9) “Effect of Bending and Tension Deformation on the Texture Evolution and Stretch Formability of Mg-Zn-RE-Zr Alloy”, Y. Ishiguro, X.S. Huang,
Y. Tsukada, T. Koyama, Y. Chino: Int. J. Miner. Metall. Mater. 29 (2022) 1334-1342.
(10) “Interfacial Microstructure and Mechanical Properties of Explosively Welded Mg/Al Alloy Plates”, M. Mihara-Narita, K. Asai, H. Sato, Y. Watanabe, H. Mori, N. Saito, Y. Chino: J. Mater. Eng. Perform. 31 (2022) 7039-7048.
(11) “純マグネシウムの組織および機械的特性に及ぼす高温圧縮変形条件の影響”,渡部宏典、坂之上悦典、斎藤尚文、千野靖正:軽金属 72 (2022) 541-546.
(12) “Improving the mechanical and corrosion properties of pure magnesium by parts-per-million-level alloying”, M.Z. Bian, I. Nakatsugawa, Y. Matsuoka, X.S. Huang, Y. Tsukada, T. Koyama, Y. Chino: Acta Mater. 241 (2022) 118393.
【構造解析・欠陥評価チーム】
【リサイクル炭素繊維評価チーム】
2021年
【信頼性評価チーム】
(1) “AZX611マグネシウム合金 / A6N01アルミニウム合金接合材のガルバニック腐食に及ぼす面積比の影響”, 中津川勲, 千野靖正:軽金属
71 (2021) 82-88.
(2) “Mg-3mass%Al-1mass%Sn合金圧延材の室温成形性及び集合組織形成に及ぼす圧延温度の影響”, 福岡準史,黄新胜,鈴木一孝,塚田祐貴,小山敏幸,千野靖正:日本金属学会誌
85 (2021) 120-127.
(3) “AZ31 マグネシウム合金高温圧延材に対する曲げ引張り加工が集合組織形成・室温成形性に及ぼす影響”, 石黒雄也, 黄新胜, 塚田祐貴, 小山敏幸, 千野靖正:日本金属学会誌 (2021) 85 (2021) 129-137.
(4) “Discharge Performance of Mg-6wt%Al alloy Anodes containing Ca and
Zn for Magnesium-Air batteries”, I. Nakatsugawa, Y. Chino: J. Electrochem
Soc. 168 (2021) 050507.
(5) “Solute segregation assisted grain boundary precipitation and its impact
to ductility of a precipitation-hardenable magnesium alloy”, M.Z. Bian,
X.S. Huang, Y. Chino: Mater. Sci. Eng. A 819 (2021) 141481.
(6) “Linear Friction Welding of an AZ91 Magnesium Alloy and the Effect
of Ca Additions on the Weld Characteristics”, L.A. Villegas-Armenta, P.
Wanjara, J.G. Baradari, I. Nakatsugawa, Y. Chino, M. Pekguleryuz: Materials
14 (2021) 3130.
(7) “2元系マグネシウム合金の粒界偏析計算と底面集合組織および室温成形性との関係調査” 城秀幸, 鈴木一孝, 黄新胜, 塚田祐貴, 小山敏幸,
千野靖正:日本金属学会誌 85 (2021) 382-390.
(8) “Simultaneously achieving excellent mechanical properties and high thermal conductivity in a high Mn-containing Mg-Zn-Ca-Al-Mn sheet alloy”, X.S. Huang, M.G. Bian, I. Nakatsugawa, Y. Chino, M. Sato, K. Yamazaki, F. Kido, H. Ueda, M. Inoue: J. Alloys Compd. 887 (2021) 161394.
(9) “Substantial improvement in cold formability of concentrated Mg–Al–Zn–Ca
alloy sheets by high temperature final rolling”, M.Z. Bian, X.S. Huang,
Y. Chino: Acta Mater. 220 (2021) 117328.
(10) “Effect of Area Ratio on the Galvanic Corrosion of AZX611 Magnesium
Alloy/A6N01 Aluminum AlloyJoint”, I. Nakatsugawa, Y. Chino: Mater. Trans.
62 (2021) 1764-1770.
【構造解析・欠陥評価チーム】
【リサイクル炭素繊維評価チーム】
(1) “Determination of carbon fiber strength distribution using bundle fiber tensile test: correction of measurement system elongation and kinetic friction between fibers in the fiber bundle”,
Y. Sugimoto, Y. Imai, M. Hojo, D. Shimamoto, Y. Hotta: J. Mater. Res. 36 (2021) 961–969.
(2) “Simultaneous evaluation of tensile strength and interfacial shear strength of short length carbon fibers using fragmentation test”,
Y. Sugimoto, D. Shimamoto, Y. Imai, Y. Hotta: Carbon 161 (2020) 83–88.
(3) “Determination of trace elements in polymers using fsLA-ICP-MS with internal standardization by carbon”, Y. Makino, T. Nakazato: J. Anal. At. Spectrom. 36 (2021) 1895–1899.
(4) “A comprehensive study on the oxidative pyrolysis of epoxy resin from fiber/epoxy composites: Product characteristics and kinetics”, C. Ma, D. Sánchez-Rodríguez, T. Kamo: J. Hazardous Mater. 412 (2021) 125329.
(5) “Influence of thermal treatment on the properties of carbon fiber reinforced plastics under various conditions”, C. Ma, D. Sánchez-Rodríguez, T. Kamo: Polym. Degrad. Stab. 178 (2020) 109199.