学術論文



  1. A. Matsushita, N. Tsuchida, E. Ishimaru, N. Hirakawa, W. Gong, S. Harjo, Effects of Loading Direction on the Anisotropic Tensile Properties of Duplex Stainless Steels Based on Phase Strains Obtained by In Situ neutron Diffraction Experiments, J. Mater. Eng. Performance, 33 (2024). https://doi.org/10.1007/s11665-023-08424-0
  2. N.Tsuchida, Y.Wada, H.Minami, Y.Toji, Role of Retained Austenite in Improving the Mechanical Properties of 1.5GPa-grade High-strength Martensitic Steels, Mater. Sci. Eng. A, 873 (2023) 144989https://doi.org/10.1016/j.msea.2023.144989
  3. N.Tsuchida, R.Ueji, W.Gong, T.Kawasaki, S.Harjo, Stress Partitioning between Bcc and Cementite Phases discussed from Phase Stress and Dislocation Density in Martensite Steels, Scripta Mater., 222 (2023), 115002. https://doi.org/10.1016/j.scriptamat.2022.115002
  4. M.Oe, N.Tsuchida, E.Ishimaru, M.Kawa, High-Speed Tensile Deformation Behavior of a Metastable 6Ni-0.2N-0.1C steel, ISIJ Int., 62 (2022), pp. 2054-2060. https://doi.org/10.2355/isijinternational.ISIJINT-2022-118
  5. N.Tsuchida, R.Ueji and T.Inoue, True Stress–True Strain Relationship up to the Plastic-Deformation Limit in a Ferrite-Pearlite Steel at Various Temperatures, ISIJ Int., 62 (2022), pp. 361-367. https://doi.org/10.2355/isijinternational. ISIJINT-2021-181
  6. N.Tsuchida and S.Harjo, Enhancement of Uniform Elongation by Temperature Change during Tensile Deformation in a 0.2C TRIP Steel, Metals, 11 (2021), 2053. https://doi.org/10.3390/met11122053
  7. 土田紀之,田中孝明,田路勇樹,残留オーステナイト形状の異なる1GPaTRIP鋼の機械的特性に及ぼす変形温度の影響,鉄と鋼,107 (2021), 968.
  8. ハルヨ・ステファヌス,川崎拓郎,土田紀之,諸岡聡,ゴン・ウー,中性子回折により検討したTRIP鋼におけるオーステナイトの粒応力とマルテンサイト変態の関係,鉄と鋼,107 (2021), 887.
  9. 土田紀之,石丸詠一朗,川真知,準安定オーステナイト鋼のTRIP効果における加工誘起マルテンサイトの役割,鉄と鋼,107 (2021), 751.
  10. 土田紀之,上路林太郎,井上忠信,その場中性子回折実験によるSUS316L鋼の応力-ひずみ曲線に及ぼす温度の影響,鉄と鋼,107 (2021), pp. 741-750.
  11. N.Tsuchida, R.Ueji, T.Inoue, Effect of Temperature on Stress-Strain Curve in SUS316L Metastable Austenitic Stainless Steel studied by In Situ Neutron Diffraction Experiments, ISIJ International, 61 (2021), 632.
  12. S.Harjo, T.Kawasaki, N.Tsuchida, S.Morooka, W.Gong, Relation between Intergranular Stress of Austenite and Martensitic Transformation in TRIP Steels revealed by Neutron Diffraction, ISIJ International, 61 (2021), 648.
  13. N.Tsuchida, T.Tanaka, Y.Toji, Effect of Deformation Temperature on Mechanical Properties in 1-GPa-garde TRIP Steels with Different Retained Austenite Morphologies, ISIJ International, 61 (2021), 654.
  14. N.Tsuchida, E.Ishimaru, M.Kawa, Role of Deformation-Induced Martensite in TRIP Effect of Metastable Austenitic Steels, ISIJ International, 61 (2021), 556.
  15. N.Tsuchida, T.Tanaka, Y.Toji, Analysis of Tensile Deformation Behavior by in situ Neutron Diffraction Experiments in a 1GPa-grade High ElongationTRIP steel, ISIJ International, 60 (2020), 1329. DOI: https://doi.org/10.2355\isijinternational.ISIJINT-2019-751
  16. 2020年日本鉄鋼協会俵論文賞受賞】土田紀之,田中孝明,田路勇樹,その場中性子回折実験による1GPa級高延性TRIP鋼の引張変形挙動解析,鉄と鋼,105 (2019), pp. 918-926. DOI: http://dx.doi.org/10.2355/tetsutohagane.TETSU-2019-014
  17. N.Tsuchida, S.Okura, T.Tanaka, Y.Toji, High-speed Tensile Deformation Behavior of 1GPa-grade TRIP-aided multi-phase steels, ISIJ International, 58 (2018), pp. 979-987.
  18. S.Harjo, N.Tsuchida, J.Abe and W.Gong, Martensite Phase Stress and the Strengthening Mechanism in TRIP Steel by Neutron Diffraction, Scientific Reports, 7 (2017), Article number: 15149, DOI: 10. 1038/s41598-017-15252-5
  19. 土田紀之,大倉誠史,田中孝明,田路勇樹,1GPaTRIP型複合組織鋼の高速引張変形挙動,鉄と鋼,103 (2017), pp. 600-608. DOI: http://dx.doi.org/10.2355/tetsutohagane.TETSU-2017-044
  20. N.Tsuchida, N.Nagahisa and S.Harjo, Room-temperature Creep Tests under Constant Load on a TRIP-aided Multi-microstructure Steel, Mater. Sci. Eng. A, 700 (2017), pp. 631-636. DOI: 10.1016/j.msea.2017.06.049.
  21. 土田紀之,上野秀平,井上忠信,超微細粒鋼の塑性加工限界までの真応力-ひずみ関係におよぼす試験片サイズの影響,日本機械学会論文集,Vol.83, No.847 (2017), DOI:10.1299/transjsme.16-00315.
  22. N.Tsuchida, T.Inoue, H.Nakano, T.Okamoto, Enhanced True Stress-True Strain Relationships due to Grain Refinement of a Low-carbon Ferrite-Pearlite Steel, Mater. Letters, 160 (2015), 117.
  23. N.Tsuchida, H.Nakano, T.Okamoto, T.Inoue, Effect of Strain Rate on True Stress-True Strain Relationship of Ultrafine-grained Ferrite-Cementite Steels up to the Plastic Deformation Limit, Mater. Sci. Eng. A, 626 (2015), 441.
  24. 土田紀之,ステファヌス・ハルヨ,大貫貴久,友田陽,鉄鋼材料の応力-ひずみ曲線,鉄と鋼,100 (2014), 1191.
  25. N.Tsuchida, T.Kawahata, E.Ishimaru and A.Takahashi, Effects of Temperature and Strain Rate on Tensile Properties in a Lean Duplex Stainless Steels, ISIJ Int., 54 (2014), 1971.
  26. N.Tsuchida, Y.Yamaguchi, Y.Morimoto, T.Tonan, Y.Takagi and R.Ueji, Effects of Temperature and Strain Rate on TRIP Effect in SUS301L Metastable Austenitic Stainless Steel, ISIJ Int., 53 (2013), 1886.
  27. N.Tsuchida, T.Inoue and H.Nakano, Effect of Ferrite Grain Size on Estimated True Stress–True Strain Relationships up to the Plastic Deformation Limit in Low Carbon Ferrite-Cementite Steels, Journal of Materials Research, 28 (2013), 2171.DOI: 10.1557/jmr.2013.221.
  28. N.Tsuchida, S.Kawabata, K.Fukaura and R.Ueji, Role of Stress-induced Martensitic Transformation in TRIP Effect of Metastable Austenitic Steels, J. Alloys and Compounds, 577 (Supplement 1) (2013), S525.
  29. 土田紀之,尾﨑渓香,0.2C-1.2Si-1.5Mn鋼のTRIP効果におよぼすひずみ速度の影響,鉄と鋼, 99 (2013), 524.
  30. 土田紀之,河畑太治,石丸詠一朗,高橋明彦,省資源型二相ステンレス鋼の引張特性におよぼす温度とひずみ速度の影響,鉄と鋼,99 (2013), 517.
  31. N.Tsuchida, T.Kawahata, E.Ishimaru, A.Takahashi, H.Suzuki and T.Shobu, Static Tensile Deformation Behavior of a Lean Duplex Stainless Steel studied by In-situ Neutron Diffraction and Synchrotron Radiation White X-rays, ISIJ Int., 53 (2013), 1262.
  32. R.Ueji, Y.Takagi, N.Tsuchida, K.Shinagawa, Y.Tanaka, T.Mizuguchi, Crystallographic Orientation Dependence of ipsiron Martensite Transformation during Tensile Deformation of Polycrystalline 30% Mn Austenitic Steel, Mater. Sci. Eng. A, A576 (2013), 14.
  33. 土田紀之,井上忠信,榎並啓太郎,様々な金属材料を用いた断続引張試験とBridgmanの式による破断直前までの真の応力-ひずみ関係の推定,日本金属学会誌,76 (2012), 579.
  34. 土田紀之,荒木俊幸,山口祐子,深浦健三,0.4C-1.5Si-1.2Mn鋼のTRIP効果におよぼすひずみ速度の影響,鉄と鋼,98 (2012), 556.
  35. N.Tsuchida, Y.Izaki, T.Tanaka, K.Fukaura, Effects of Temperature and Strain Rate on Stress-Strain Curves for Dual-Phase Steels and Their Calculations by using the Kocks-Mecking Model, ISIJ International, 52 (2012), 729.
  36. N.Tsuchida, T.Inoue and K.Enami, Estimations of the True Stress and True Strain until just before Fracture by the Stepwise Tensile Test and Bridgman Equation in Various Metals and Alloys, Mater. Trans., 53 (2012), 133.
  37. 高木勝規,上路林太郎,水口隆,土田紀之,準安定オーステナイト系ステンレス鋼SUS301LTRIP効果におよぼすひずみ速度の影響,鉄と鋼,97 (2011), 450.
  38. N.Tsuchida, R.Ueji, F.Yin and Y.Tomota, Static Tensile Deformation Behaviors of an Fe-30Mn-3Al-3Si TWIP Steel studied by In-situ Neutron Diffraction, Journal of Iron and Steel Research International, 18 (Supplement 1-1), 178.
  39. 土田紀之,井崎栄政,田中知幸,深浦健三,Dual-Phase鋼の応力-ひずみ曲線におよぼす温度とひずみ速度の影響とKocks-Meckingモデルによる定式化,鉄と鋼,97 (2011), 201.
  40. N.Tsuchida, Y.Morimoto, T.Tonan, Y.Shibata, K.Fukaura and R.Ueji, Stress-induced Martensitic Transformation Behaviors at Various Temperatures and Their TRIP Effect in SUS304 Metastable Austenitic Stainless Steel, ISIJ International, 51 (2011), 124.
  41. N.Tsuchida, K.Fukaura, Y.Tomota, A.Moriai and H.Suzuki, Tensile Deformation Behavior of Metastable Austenitic Stainless Steels studied by Neutron Diffraction, Material Science Forum, 652 (2010), 233.
  42. 土田紀之,鳥塚史郎,長井寿,上路林太郎,超微細フェライト-セメンタイト鋼の静的引張特性に及ぼすセメンタイト体積率の影響,鉄と鋼,96 (2010), 42.
  43. Y.Aoyama, M.Komada, Y.Kuroda, T.Takahashi, N.Tsuchida, Y.Harada and K.Fukaura, Mechanical Properties of Ni-Free High-Nitrogen Austenitic Stainless Steel made by Metal Injection Molding with Nitrogen Absorption Method, J. Jpn. Soc. Powder Powder Metallurgy, 56 (2009), 103.
  44. 青山陽亮,黒田義和,高橋輝男,土田紀之,原田泰典,深浦健三,金属粉末射出成形で作製したオーステナイト系ステンレス鋼の引張特性に及ぼす窒素添加と変形双晶の影響,粉体および粉末冶金,56 (2009), 98.
  45. R.Ueji, N.Tsuchida, D.Terada, N.Tsuji, Y.Tanaka, A.Takemura and K.Kunishige, Tensile Properties and Twinning Behavior of High Manganese Austenitic Steel with Fine-grained Structure, Scripta Mater., 59 (2008) 963.
  46. 土田紀之,守本芳樹,岡本尚士,深浦健三,原田泰典,上路林太郎,準安定オーステナイト系ステンレス鋼のTRIP効果における加工誘起マルテンサイト変態の役割,日本金属学会誌, 72 (2008), 769.
  47. Y.Tomota, A.Narui and N.Tsuchida, Tensile Behavior of Fine-grained Steels, ISIJ International, 48 (2008), 1107.
  48. N.Tsuchida, K.Fukaura, K.Nagai, Y Tomota, Flow Stress Analysis using the Kocks-Mecking Model for Ferrite-Cementite Steels with various Ferrite Grain Sizes, ISIJ International, 48 (2008), 1020.
  49. N.Tsuchida, H.Masuda, Y.Harada, K.Fukaura, Y.Tomota, K,Nagai, Effect of Ferrite Grain Size on Tensile Deformation Behavior of a Ferrite-Cementite Low Carbon Steel, Materials Science and Engineering A, A488 (2008), 446.
  50. 上路林太郎,土田紀之,藤井英俊,国重和俊,金堂大介,TWIP鋼の室温引張特性に及ぼす平均結晶粒径の影響,日本金属学会誌,71 (2007), 815.
  51. R.Ueji, K.Harada, N.Tsuchida, and K.Kunishige, High Speed Deformation of Ultrafine Grained TWIP Steel, Material Science Forum, 561-565 (2007), 107.
  52. M.Komada, Y.Kuroda, R.Murakami, N.Tsuchida, Y.Harada, K.Fukaura, S.Fukumoto, Metal Injection Molding of Ni-free Austenitic Stainless Steels II -Microstructure and Mechanical Properties-, Advanced Materials Research, 26-28 (2007), 19.
  53. K.Kuroda, M.Komada, R.Murakami, S.Fukumoto, N.Tsuchida, Y.Harada, K.Fukaura, Metal Injection Molding of Ni-free Austenitic Stainless Steels I -Manufacturing process-, Advanced Materials Research, 26-28 (2007), 15.
  54. R.Murakami, Y.Aoyama, N.Tsuchida, Y.Harada, K.Fukaura, Microstructure and Mechanical Properties of Ni-free High Nitrogen Austenite Stainless Steels fabricated by Mechanical Alloying Method, Material Science Forum, 561-565 (2007), 37.
  55. Y.Harada, K.Fukaura, and N.Tsuchida, Grain Refinement of Metal Surface using Hot Shot Peening, Material Science Forum, 539-543 (2006), 1080.
  56. 原田泰典,古川陽介,村尾卓児,森謙一郎,土田紀之,深浦健三,b型チタン合板の多段深絞り加工における成形性と表面粗さの改善,塑性と加工,47 (2006), 850.
  57. Y.Harada, N.Tsuchida, and K.Fukaura, Joining and Shaping Fit of Dissimilar Materials by Shot Peening, Journal of Materials Processing Technology, 177 (2006), 356.
  58. 原田泰典,宇治橋論,梅村貢,小林祐次,土田紀之,深浦健三,ショットピーニングによる塑性流動接合,塑性と加工,47 (2006), 221.
  59. 原田泰典,上杉秀人,森謙一郎,梅村貢,土田紀之,深浦健三,機械構造用鋼の表面特性に及ぼす微細ショットピーニングの影響,塑性と加工,47 (2006), 216.
  60. Y.Harada, T.Murao, K.Mori, N.Tsuchida, and K.Fukaura, Prevention os Seizure in Deep Drawing Using Plastic Die, Materials Science Forum, 505-507 (2006), 763.
  61. N.Tsuchida, Y.Tomota, K.Nagai, and K.Fukaura, A Simple Relationship between Luders Elongation and Work-hardening Rate at Lower Yield Stress, Scripta Mater., 54 (2006), 57.
  62. 朴鍾皓,神田光晴,土田紀之,友田陽,オーステナイト系ステンレス鋼における変形応力のひずみ速度依存性に及ぼす窒素添加の影響,日本金属学会誌,69 (2005), 867.
  63. N.Tsuchida, E.Baba, K.Nagai, and Y.Tomota, Effects of Interstitial Solute Atoms on the Very Low Strain-rate Deformations for an IF Steel and an Ultra Low Carbon Steel, Acta Materialia, 53/2 (2005), 265.
  64. 土田紀之,友田陽,長井寿,超微細フェライト-セメンタイト鋼の高速引張変形挙動,鉄と鋼,90 (2004), 1043.
  65. T.Ono, Y.Tomota, P.Lukas, D.Lugovyy, D.Neov, N.Tsuchida, and K.Nagai, In Situ Neutron Diffraction during Tensile Straining of a Fine-Grained Ferrite-Pearlite Steel, Materials Science and Technology, 20 (2004), 121.
  66. N.Tsuchida, E.Baba, O.Umezawa, K.Nagai, and Y.Tomota, True Stress-True Strain Relations with Very Low Strain Rates at Room Temperature for an Austenitic 25Cr-19Ni steel, ISIJ International, 44 (2004), 209.
  67. 土田紀之,友田陽,長井寿,超微細フェライトセメンタイト鋼の静的引張特性,鉄と鋼,89 (2003), 1170.
  68. Y.Tomota, P.Lukas, S.Harjo, J-H.Park, N.Tsuchida, and D.Neov, In Situ Neutron Diffraction Study of IF and Ultra Low Carbon Steels upon Tensile Deformation, Acta Materialia, 51 (2003), 819.
  69. N.Tsuchida, Y.Tomota, and K.Nagai, High-Speed Deformation for an Ultrafine-Grained Ferrite-Pearlite Steel, ISIJ International, 42 (2002), 1594.
  70. 土田紀之,小野匠,友田陽,長井寿,フェライト-パーライト鋼の引張変形応力におよぼす温度,ひずみ速度とフェライト結晶粒径の影響,日本機械学会論文集A,68 (2002), 1547.
  71. N.Tsuchida, K.Nagai and Y.Tomota, Compromise between Environmental Loads and Performance in Strengthening Steels, Journal of Advanced Science, vol. 13, No. 3 (2002), 269.
  72. N.Tsuchida, Y.Tomota, H.Moriya, O.Umezawa and K.Nagai, Application of the Kocks-Mecking Model to Tensile Deformation of an Austenitic 25Cr-19Ni Steel, Acta Materialia, 49/15 (2001), 3029.
  73. N.Tsuchida, Y.Tomota, H.Moriya, O.Umezawa and K.Nagai, A Description of Stress-Strain Curve of a Ti-Fe-O alloy at various Temperatures and Strain Rates based on Thermal Activation Model, ISIJ International, 40 (2000), 84.
  74. 土田紀之,友田陽,長井寿, 加工熱処理工程における二酸化炭素排出量の推定とMn-Si-C鋼の組織制御によるエコスティール材料設計,鉄と鋼,86, (2000), 181.
  75. N.Tsuchida and Y.Tomota, A Micromechanic Modeling for Transformation Induced Plasticity in Steels, Materials Science and Engineering A, A285 (2000), 345.
  76. 小谷清二,土田紀之,友田陽,複合組織鋼の変形応力のsecant法を用いた上下界予測と関連ミクロ組織,鉄と鋼,83 (1997), 827.


国際会議発表論文

  1. R. Tsuda, R. Morohoshi, N. Tsuchida and T. Kawabata, FEM Module Development Considering TRIP for Evaluating Liquefied Hydrogen Storage Tank Deformation under Huge Earthquake, Proceedings of the Thirty-third (2023) International Ocean and Plolar Engineering Conference, (2023), 3519.
  2. R. Morohoshi, R. Tsuda, M. Hatano, N. Tsuchida, T. Kawabata, Effect of Stress Field on Martensitic Transformation in Metastable Austenitic Stainless Steel, Proceedings of the Thirty-third (2023) International Ocean and Plolar Engineering Conference, (2023), 3462.
  3. R. Ueji, W. Gong, S. Harjo, T. Kawasaki, A. Shibata, Y. Kimura, T. Inoue, N. Tsuchida, Deformation-induced Martensitic Transformation at Tensile and Compressive Deformations of High-carbon Bainitic Steel, Proceedings of International Symposium on New Developments in Advanced High-Strength Sheet Steels, (2023), 288. 10.33313/298/030
  4. N. Tsuchida, T. Tanaka, Y. Toji, Tensile Deformation Behavior of 1GPa-grade TRIP-aided Multi-microstructure Steels studied by in situ Neutron Diffraction, TMS2019 148th Annual Meeting & Exhibition Supplemental Proceedings (2018), 513.
  5. S. Harjo, N. Tsuchida, Monitoring Martensitic Transformation during Tensile Test in TRIP Steels using Neutron Diffraction, 18th International Conference on the Strength of Materials (ICSMA18) (2018).
  6. N. Tsuchida, S. Okura, T. Tanaka, Y. Toji, Effect of Strain Rate onMechanical Properties of a 1 GPa-grade TRIP-aided Multi-microstructure Steel, TMS2018 (2018).
  7. S. Harjo, N.Tsuchida, T.Kawasaki, W.Gong, TRIP Behavior Observation during Creep Test using Neutron Diffraction, Frontiers in Materials Processing Applications, Research and Technology (FiMPART 2017) (2017).
  8. N.Tsuchida and S.Harjo, TRIP Effect in a Constant Load Creep Test at Room Temperature, International Conference on Martensitic Transformations (ICOMAT2017) (2017).
  9. N.Tsuchida, S.Ueno and T.Inoue, Effect of Specimen Size on Stress-Strain Relationship in Ultrafine-grained Steels, NANO2016 (2016)
  10. N.Tsuchida, R.Bajo, E.Ishimaru, M.Kawa, S.Tsuge, Tensile Deformation Behavior of a Metastable Austenitic 18Cr-6Ni-0.2N Steel, Proc. of Processing and Fabrication of Advanced Materials XXIV, (2015), pp. 236-240
  11. R.Ueji, N.Tsuchida, K.Harada, K.Takaki, H.Fujii, Change of Inhomogeneous Plastic Deformation and Twinning Behaviors by Grain Refinement in High Manganese Austenitic Steel, 36th Riso International Symposium on Materials Science, IOP Conf. Series: Materials Science and Engineering, 89 (2015) 012045.
  12. N.Tsuchida, H.Nakano and T.Inoue, Effect of Ferrite Grain Size on Local Elongation in a Low Carbon Steel, Proceedings of the 8th Pacific Rim International Conference on Advanced Materials and Processing (PRICM-8), (2013), pp. 603-608. (CD-R)
  13. S.Harjo, N.Tsuchida, W.Gong, J.Abe and K.Aizawa, TRIP Steel Deformation Behavior by Neutron Diffraction, Mater. Res. Soc. Symp. Proc. (2013) Vol. 1528, DOI: 10.1557/opl.2013. 570.
  14. N.Tsuchida, T.Inoue, S.Ueno and S.Torizuka, Effect of Carbon Content on Estimated True Stress-True Strain Relationships up until the Plastic Deformation Limit in Ultrafine-Grained Ferrite-Cementite Steels, Proc. International Workshop on Bulk Nanostructured Metals (2012), 93.
  15. N.Tsuchida and T.Inoue,True Stress-True Strain Relationships until just before Fracture of Ultrafine-Grained Ferrite-Cementite Steels, Proceedings of TMS 141st. Annual Meeting & Exhibition (TMS2012) (2012), 201.
  16. N.Tsuchida, S.Torizuka, K.Nagai, R.Ueji, Effect of Dispersed Cementite on Stress-Strain Curves in Ultrafine-grained Ferrite-Cementite Steels, Proceedings of the Second International Symposium on Steel Science (ISSS2009) (2009), 221.
  17. R.Ueji, G.D.Torkamani, N.Tsuchida and K.Kunishige, Effect of Grain Size on the Work-hardening Behavior and Deformation Twinning of High-Manganese Austenitic Steel, Proceedings of the Second International Symposium on Steel Science (ISSS2009) (2009), 293.
  18. Y.Morimoto, S.Okamoto, K.Fukaura, N.Tsuchida, R.Ueji, Relationship between TRIP Effect and Stress-induced Martensitic Transformation in Metastable Austenitic Steels, Proceedings of the 9th International Conference on Technology of Plasticity (ICTP2008) (2008), 139.
  19. Y.Aoyama, Y.Kuroda, M.Komada, N.Tsuchida, Y.Harada, and K.Fukaura, Microstructure and Mechanical Properties of High Nitrogen Austenitic Stainless Steel fabricated by Metal Injection Molding, Proceedings of the 9th International Conference on Technology of Plasticity (ICTP2008) (2008), 1467.
  20. K.Fukaura, M.Komada, Y.Kuroda, N.Tsuchida, and Y.Harada, Ni-free High Nitrogen Austenitic Stainless Steel made by means of Metal Injection Molding and Nitrogen Absorption Method, Proceedings of the 9th International Conference on Technology of Plasticity (ICTP2008) (2008), 2164.
  21. R.Ueji, K.Harada, N.Tsuchida, Y.Okitsu, K.Kunishige, Effect of Mean Grain Size on Tensile Properties and Dynamic Collapse Properties of TWIP Steel, Proceedings of International Conference on New Developments in Advanced High-Strength Sheet Steels (AHSS) (2008) 277.
  22. N.Tsuchida, Y.Tomota, Y.Harada, K.Fukaura and K.Nagai, Strain Rate Sensitivity of the Ferrite-Cementite Low Carbon Steels with a Wide Range of Grain Size, Proceedings of ISUGS2007 (2007), 138.
  23. F.Yin, N.Tsuchida and K.Nagai, Grain Size Distribution Features and Yield Strength of Ultrafine-Grained Low Carbon Steels, Proceedings of the Second Baosteel Biennial Academic Conference, vol.2 (2006) 7.
  24. N.Tsuchida, Y.Tomota and K.Nagai, High-speed Tensile Deformation Behavior for Ultrafine-grained Steels, Proceedings of the Joint Conference of HSLA Steels 2005 and ISUGS 2005 (2005), 270.
  25. Y.Tomota, N.Tsuchida and J-H.Park, High Strain Rate Deformation Behavior of Steels focusing on Extremely Low Carbon Steels, Proceedings of IF Steels 2003 (2003), 148.
  26. Y.Tomota and N.Tsuchida, Modeling for Continuous Evaluations Method in High-speed Deformation, Proceedings of ICASS 2002 (2002), 69.
  27. N.Tsuchida, Y.Tomota and K.Nagai, High-speed Deformation for an Ultrafine-grained Ferrite-Pearlite steel, Proceedings of ICASS 2002 (2002), 75.
  28. N.Tsuchida, Y.Tomota and K.Nagai, Eco-steel Design for balancing "Environmental Loads" and "Mechanical Properties", Proceedings of the Fourth International Conference on Ecomaterials (1999), 53.
  29. N.Tsuchida, Y.Tomota and K.Nagai, Eco-steel Design for balancing "Environmental Loads" and "Mechanical Properties", Proceedings of the Third International Conference on EcoBalance (1998), 417.
  30. N.Tsuchida, Y.Tomota and K.Nagai, An Eco-steel Design Concept coupled with Properties Predictions and Materials Life Cycle Analysis -Wide Application of a Low Alloy Steel by Microstructural Control-, Proceedings of the Third International Conference on Ecomaterials (1997), 95.
  31. N.Tsuchida, S.Kotani, and Y.Tomota, Microstructure vs. Properties Prediction Method for Eco-steel Design, Proceedings of the Second International Conference on EcoBalance (1996), 459.