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鉄鋼材料グループSteel Research Group

論文リスト

2026

  • Gutiérrez-Urrutia I., Ogawa Y., Shibata A.

    Study of the influence of hydrogen on strain hardening and strain localization in a Fe-19Ni-24Cr austenitic steel through quantitative dislocation structure analysis

    Acta Materialia. 309 (2026) 122078

  • Arora A., Shibata A., Matsunaga H.

    Corrigendum to “Fatigue crack growth retardation due to crack closure in high-strength steel under high-pressure hydrogen”. [Int. J. Fatig. 202 (2026) 109235] (International Journal of Fatigue (2026) 202, (S0142112325004323), (10.1016/j.ijfatigue.2025.109235))

    International Journal of Fatigue.202(2026)109254

  • Hwang S., Park M.-H., Bai Y., Suzumura T., Asada R., Lavakumar A., Punyafu J., Shibata A., Adachi H., Fujii T., Tsuji N.

    Dynamics of Portevin-Le Chatelier banding revealed through grain refinement in high-Mn austenitic steel: Sequential overcoming of necking

    Journal of Materials Science and Technology.254(2026)234-248

  • Ito T., Ogawa Y., Gong W., Kawasaki T., Shibata A., Harjo S.

    Stress and temperature, rather than hydrogen, govern stacking fault evolution during tensile deformation in Fe–24Cr–19Ni steel

    Scripta Materialia.273(2026)117084

  • Lan X., Okada K., Gutierrez-Urrutia I., Shibata A.

    Effects of prior austenite grain size on hydrogen embrittlement behavior in high-strength martensitic steel

    Materials Science and Engineering: A.950(2026)149539

  • Lan X., Okada K., Ueji R., Shibata A.

    Enhancing hydrogen embrittlement resistance in high-strength martensitic steels via tailoring variant selection at prior austenite grain boundaries

    Scripta Materialia.274(2026)117157

  • Liao H., Wakeda M., Shibata A., Ohmura T.

    First-principles study of hydrogen segregation in ɛ-, η-, and θ-carbides in bcc-Fe: Effects of elastic strain and local charge density

    International Journal of Hydrogen Energy.214(2026)153715

  • Nishida H., Ogawa Y., Shibata A.

    Distinct impacts of hydrogen and carbon on thermally activated dislocation motion in Fe-Cr-Ni austenitic steel

    Scripta Materialia.273(2026)117111

  • Ogawa Y., Shibata A.

    Refining hydrogen-dislocation interaction model for thermally activated plasticity in Fe-Cr-Ni austenitic steels: Analyzing stress-dependent activation volume

    Acta Materialia.306(2026)121896

  • Okada K., Watase Y., Park M.-H., Tsuzaki K., Shibata A.

    Origin of the trade-off relationship between tensile strength and hydrogen embrittlement resistance

    Acta Materialia.303(2026)121683

  • Shibata A., Miyamoto G., Morito S., Nakamura A., Moronaga T., Kitano H., Gutierrez-Urrutia I., Hara T.

    Three-dimensional crystallographic and local variant configuration analysis of lath martensite in medium-carbon steel

    Acta Materialia.307(2026)121981

2025

  • Gong W., Harjo S., Kawasaki T., Yamashita T., Shibata A., Shinozaki T., Tomota Y., Tsuji N.

    Effect of ausforming on isothermal transformation below the martensite start temperature in NiCrMoV steel: an in-situ neutron diffraction study

    Microstructures.5[4](2025)2025087

  • Gutierrez-Urrutia I., Ogawa Y., Shibata A.

    Analysis of the influence of hydrogen on prismatic loops and dislocation dipole structure in an austenitic steel: Effect on stacking fault energy

    International Journal of Hydrogen Energy.180(2025)151741

  • Ito T., Ogawa Y., Gong W., Mao W., Kawasaki T., Okada K., Shibata A., Harjo S.

    Role of solute hydrogen on mechanical property enhancement in Fe–24Cr–19Ni austenitic steel: An in situ neutron diffraction study

    Acta Materialia.287(2025)120767

  • Lan X., Okada K., Ueji R., Shibata A.

    Improving hydrogen embrittlement resistance in high-strength martensitic steels via thermomechanical processing

    Scripta Materialia.264(2025)116711

  • Lan X., Tsuzaki K., Ueji R., Shibata A.

    Achieving Remarkable Enhancement of Yield Strength Ensuring Large Ductility in a Metastable Fe50Mn30Cr10Co10 High-entropy Alloy via Warm Rolling Treatment

    ISIJ International.65[9](2025)1339-1347

  • Nishio R., Umetani T., Nakamura Y., Sasaki T.T., Shibata A.

    Effect of cooling rate after high-temperature heating on the ductility of 19Cr-0.020C-0.015N-0.4Nb stabilized ferritic stainless cast steel

    Materials Science and Engineering: A.945(2025)148952

  • Ogawa Y., Shibata A.

    Plastic flow in Fe-Cr-Ni austenitic steel under the presence of solute H: A study via room temperature creep

    Acta Materialia.285(2025)120659

  • Ogawa Y., Takakuwa O., Moriyama J., Nishida H., Tsuzaki K., Shibata A.

    Phenomenology and Mechanisms of Hydrogen-Induced Solid Solution-Hardening in Fe-Cr-Ni Austenitic Steels

    Nippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals.89[10](2025)287-306

  • Ogawa Y., Takakuwa O., Shibata A.

    Overview of gaseous hydrogen-assisted fatigue crack growth in ferritic iron and steels: Bridging micro and macro

    International Journal of Hydrogen Energy.102(2025)1507-1529

  • Okada K., Tsuzaki K., Nakagawa E., Shibata A.

    Fatigue Limit Doubling in High-Strength Martensitic Steel through Crack Embryo Engineering–Cyclic-Training-Driven Self-Optimization

    Advanced Science.(2025)

  • Park M.-H., Shibata A., Harjo S., Tsuji N.

    Grain refinement of dual phase steel maximizes deformation ability of martensite, leading to simultaneous enhancement of strength and ductility

    Acta Materialia.292(2025)121061

  • Park M.-H., Tagusari Y., Shibata A., Tsuji N.

    Grain size effects on strain localization and fracture behavior in ferrite–martensite dual-phase steels characterized by digital image correlation analysis

    Journal of Materials Research and Technology.37(2025)2258-2270

  • Redarce T., Iwata K., Ogawa Y., Tsuzaki K., Shibata A., Matsunaga H.

    Ausformed high-strength low-alloy steel exhibits exceptional resistance to fatigue crack-growth in high-pressure hydrogen environments

    International Journal of Fatigue.193(2025)108814

  • Shibata A., Nakamura A., Moronaga T., Okada K., Hara T., Ueji R.

    Three-dimensional morphologies, substructures, and crystallography of pearlite in carbon steel

    Science and Technology of Advanced Materials.26[1](2025)2523242

  • Takakuwa O., Ogawa Y.

    Modeling hydrogen-assisted fatigue crack growth in low-carbon steel focusing on thermally activated hydrogen-dislocation interaction

    Science and Technology of Advanced Materials.26[1](2025)2436345

  • Yoshida S., Fu R., Gong W., Ikeuchi T., Bai Y., Feng Z., Wu G., Shibata A., Hansen N., Huang X., Tsuji N.

    Characteristic deformation microstructure evolution and deformation mechanisms in face-centered cubic high/medium entropy alloys

    Acta Materialia.283(2025)120498

  • Yoshida S., Park N., Shiotani K., Bai Y., Niiyama T., Shibata A., Shimokawa T., Tsuji N.

    Ultra-grain-refinement of face-centered cubic high/medium-entropy alloys: Approaching the limit of grain refinement through severe plastic deformation and recrystallization

    Materials and Design.258(2025)114622

2024

  • Chandiran E., Ogawa Y., Ueji R., Singh A., Somekawa H., Ohmura T.

    Activation of non type dislocation in near -oriented Mg by Sc addition

    Materials Science and Engineering: A.890(2024)145927

  • Chen T., Ogawa Y., Koyama M.

    Growth path and morphology of hydrogen-related cracks in grain-refined tempered martensitic steel produced by cyclic thermal treatment

    International Journal of Hydrogen Energy.(2024)

  • Gutierrez-Urrutia I., Ogawa Y., Shibata A.

    Hydrogen-enhanced microbanding in an austenitic FeMnAlC low-density steel: Effect on hydrogen embrittlement resistance

    Acta Materialia.280(2024)120335

  • Gutierrez-Urrutia I., Shibata A.

    Effect of deformation temperature on strain localization phenomena in an austenitic Fe-30Mn-6.5Al-0.3C low-density steel

    Acta Materialia.264(2024)119566

  • Hwang S., Bai Y., Gao S., Park M.-H., Shibata A., Tsuji N.

    Mechanism of simultaneous increase of strength and ductility with grain refinement in Si-added high-Mn austenitic steel

    Materials Science and Engineering: A.894(2024)146193

  • Hwang S., Kato H., Okada K., Park M.-H., Lavakumar A., Gholizadeh R., Adachi H., Sato M., Tsuji N.

    Exploring unusual Lüders deformation in ultrafine-grained high-Mn austenitic steel

    Materials Research Letters.12[8](2024)571-579

  • Hwang S., Park M.-H., Bai Y., Lavakumar A., Shibata A., Adachi H., Sato M., Tsuji N.

    Mechanism of DSA effect correlating to the macroscopic PLC banding in high-Mn austenitic steel

    Scripta Materialia.249(2024)116183

  • Kim J.H., Miyamoto G., Shibata A., Hojo T., Koyama M., Zhang Y., Furuhara T.

    Influence of austenite grain boundary misorientation on hydrogen-induced intergranular crack propagation in a medium carbon martensitic steel

    Acta Materialia.274(2024)120036

  • Lan X., Okada K., Gutierrrez-Urrutia I., Shibata A.

    Quantitative analysis of local plasticity accompanying hydrogen-related fracture in low-carbon martensitic steel

    International Journal of Hydrogen Energy.50(2024)333-341

  • Lavakumar A., Hwang S., Okada K., Park M.-H., Chokshi A.H., Tsuji N.

    Real-time Observation of Stress-strain Behavior beyond Necking in Martensitic Steel by in-situ Synchrotron X-ray Diffraction

    ISIJ International.64[12](2024)1847-1852

  • Li Z.H., Sasaki T.T., Ueji R., Kimura Y., Shibata A., Ohkubo T., Hono K.

    Role of deformation on the hydrogen trapping in the pearlitic steel

    Scripta Materialia.241(2024)115859

  • Matsunaga H., Yamabe J., Takakuwa O., Ogawa Y., Matsuoka S.

    Hydrogen Gas Embrittlement: Mechanisms, Mechanics, and Design

    Hydrogen Gas Embrittlement: Mechanisms, Mechanics, and Design.(2024)1-399

  • Miyamoto G., Nakada N., Sugiura N., Kadoi K., Neishi Y., Shibata A., Takagi S., Yamanaka A., Yamasaki S.

    Preface to the Special Issue on “Martensitic and Bainitic Transformations in Steels; Fundamentals and Their Applications”

    ISIJ International.64[2](2024)

  • Morikawa T., Shibata A., Nakamura N., Tanaka M., Higashida K.

    Determination of Microscopic Strain Distribution in the Martensitic Transformation of Fe-31Ni Alloy Plates Using the Micro-grid Marker Method

    ISIJ International.64[2](2024)212-217

  • Moriyama J., Takakuwa O., Yamaguchi M., Ogawa Y., Tsuzaki K.

    The contribution of Cr and Ni to hydrogen absorption energy in Fe-Cr-Ni austenitic systems: A first-principles study

    Computational Materials Science.232(2024)112650

  • Ogawa Y.

    Temperature-sensitive ductilization in hydrogen-alloyed Fe-Cr-Ni austenitic steel by enhanced deformation twinning

    Scripta Materialia.238(2024)115760

  • Ogawa Y., Fujita T.

    Solid solution-hardening by hydrogen in Fe–Cr–Ni-based austenitic steel studied by strain rate sensitivity measurement: Contributions of effective stress and solute drag

    Materials Science and Engineering: A.911(2024)146941

  • Ogawa Y., Kuriyama K., Koyama M.

    Dual grain size-effects on hydrogen-assisted fatigue crack growth in 1 GPa-class medium-carbon martensitic steel

    International Journal of Hydrogen Energy.50(2024)108-115

  • Ogawa Y., Tanaka M., Fujita T., Shibata A.

    Thermally activated dislocation motion in hydrogen-alloyed Fe–Cr–Ni austenitic steel revisited via Haasen plot

    International Journal of Hydrogen Energy.74(2024)170-182

  • Okada K., Shibata A., Kimura Y., Yamaguchi M., Ebihara K.-I., Tsuji N.

    Effect of carbon segregation at prior austenite grain boundary on hydrogen-related crack propagation behavior in 3Mn-0.2C martensitic steels

    Acta Materialia.280(2024)120288

  • Okada K., Shibata A., Matsumiya H., Tsuji N.

    Origin of Serrated Markings on the Hydrogen Related Quasi-cleavage Fracture in Low-carbon Steel with Ferrite Microstructure

    Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan.110[11](2024)890-898

  • Park M.-H., Fujimura Y., Shibata A., Tsuji N.

    Effect of martensite hardness on mechanical properties and stress/strain-partitioning behavior in ferrite + martensite dual-phase steels

    Materials Science and Engineering: A.916(2024)147301

  • Park M.-H., Matsubayashi R., Shibata A., Tsuji N.

    Quantitative characterization of local deformation-fracture behavior in ferrite-martensite dual-phase steels with different martensite distributions

    Materials Science and Engineering: A.918(2024)147445

  • Park M.-H., Yako S., Takeda Y., Shibata A., Tsuji N.

    Making stress visible: A method to quantify local stress distribution in metals using digital image correlation method

    Scripta Materialia.252(2024)116265

  • Shibata A., Gutierrez-Urrutia I., Nakamura A., Moronaga T., Okada K., Madi Y., Besson J., Hara T.

    Local crack arrestability and deformation microstructure evolution of hydrogen-related fracture in martensitic steel

    Corrosion Science.233(2024)112092

  • Shibata A., Katsuno T., Tsuboi M., Tsuji N.

    Effect of Bain Unit Size on Low-temperature Fracture Toughness in Medium-carbon Martensitic and Bainitic Steels

    ISIJ International.64[2](2024)381-388

  • Shibata A., Madi Y., Besson J., Nakamura A., Moronaga T., Okada K., Gutierrez-Urrutia I., Hara T.

    Relationship between Three-dimensional Crack Morphology and Macroscopic Mechanical Properties of Hydrogen-related Fracture in Martensitic Steel

    ISIJ International.64[4](2024)660-667

  • Tanaka Y., Hirakawa N., Tsuzaki K., Shibata A., Matsunaga H.

    Advancements in fracture toughness testing of ultra-high-strength steel sheets: Unraveling the crack-closure effect and unanticipated thickness independence

    Engineering Fracture Mechanics.307(2024)110322

  • Ueji R., Gong W., Harjo S., Kawasaki T., Shibata A., Kimura Y., Inoue T., Tsuchida N.

    Deformation-induced Martensitic Transformation at Tensile and Compressive Deformations of Bainitic Steels with Different Carbon Contents

    ISIJ International.64[2](2024)459-465

  • Ueji R., Sasaki D., Maeda R., Matsuayama A., Tsuzaki K., Shibata A.

    Sample Size Effect on the Impact Absorbed Energy in Carbon Steel With Different Microstructures

    3rd International Symposium on the Recent Developments in Plate Steels, Proceedings.(2024)452-460

  • Yoshida S., Yamashita G., Ikeuchi T., Bai Y., Shibata A., Tsuji N.

    Grain size dependent deformation microstructure evolution and work-hardening in CoCrNi medium entropy alloy

    Journal of Alloys and Metallurgical Systems.8(2024)100123

2023

  • Chen, T., Koyama, M., Ogawa, Y., Matsunaga, H., Akiyama, E.

    Martensite Boundary Characteristics on Cycle- and Time-Dependent Fatigue Crack Growth Paths of Tempered Lath Martensitic Steels in a 90 MPa Gaseous Hydrogen Atmosphere

    Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science.54[7](2023)2512-2518

  • Gholizadeh R., Yoshida S., Bai Y., Kurokawa S., Shibata A., Tsuji N.

    Global understanding of deformation behavior in CoCrFeMnNi high entropy alloy under high-strain torsion deformation at a wide range of elevated temperatures

    Acta Materialia.243(2023)118514

  • Gong W., Harjo S., Tomota Y., Morooka S., Kawasaki T., Shibata A., Tsuji N.

    Lattice parameters of austenite and martensite during transformation for Fe–18Ni alloy investigated through in-situ neutron diffraction

    Acta Materialia.250(2023)118860

  • Guo B., Mao W., Chong Y., Shibata A., Harjo S., Gong W., Chen H., Jonas J.J., Tsuji N.

    Unexpected dynamic transformation from α phase to β phase in zirconium alloy revealed by in-situ neutron diffraction during high temperature deformation

    Acta Materialia.242(2023)118427

  • Gutierrez-Urrutia, I., Shibata, A.

    Influence of microscope settings on dislocation imaging in transmission forescattered electron imaging (t-FSEI)

    Materials Characterization.203(2023)113147

  • Hwang S., Myeong-Heom P., Bai Y., Shibata A., Adachi H., Sato M., Tsuji N.

    The Effect of Serration Behavior on Strain Hardening and Deformation in 22Mn-0.6C Steel

    International Symposium on New Developments in Advanced High-Strength Sheet Steels, AHSS 2023.(2023)119-124

  • Mao W., Gao S., Gong W., Bai Y., Harjo S., Park M.-H., Shibata A., Tsuji N.

    Quantitatively evaluating respective contribution of austenite and deformation-induced martensite to flow stress, plastic strain, and strain hardening rate in tensile deformed TRIP steel

    Acta Materialia.256(2023)119139

  • Ogawa Y., Naito K., Harada K., Oguma H.

    Proposal of Evaluation Method for Crack Propagation Behaviors of Second-Generation Acrylic Adhesives under Mode I Static Loading

    Polymers.15[8](2023)1878

  • Ogawa Y., Iwata K.

    Fatigue Crack Propagation in Pearlitic Steel under Pressurized Gaseous Hydrogen: Influences of Microstructure Size and Strength Level

    ISIJ International.63[7](2023)1251-1262

  • Ogawa Y., Takakuwa O., Tsuzaki K.

    Solid-solution hardening by hydrogen in Fe–Cr–Ni-based austenitic steel: Temperature and strain rate effects

    Materials Science and Engineering: A.879(2023)145281

  • Okada K., Shibata A., Sasaki T., Matsumiya H., Hono K., Tsuji N.

    Improvement of resistance against hydrogen embrittlement by controlling carbon segregation at prior austenite grain boundary in 3Mn-0.2C martensitic steels

    Scripta Materialia.224(2023)115043

  • Okada, K., Shibata, A., Tsuji, N.

    Characteristics and formation mechanism of serrated markings on the hydrogen-related quasi-cleavage fracture in as quenched low-carbon martensitic steel

    Scripta Materialia.234(2023)115568

  • Shibata A., Miyamoto G., Morito S., Nakamura A., Moronaga T., Kitano H., Gutierrez-Urrutia I., Hara T., Tsuzaki K.

    Substructure and crystallography of lath martensite in as-quenched interstitial-free steel and low-carbon steel

    Acta Materialia.246(2023)118675

  • Shibata, A., Gutierrez-Urrutia, I., Nakamura, A., Okada, K., Miyamoto, G., Madi, Y., Besson, J., Hara, T., Tsuzaki, K.

    Three-dimensional propagation behavior of hydrogen-related intergranular cracks in high-strength martensitic steel

    International Journal of Hydrogen Energy.48[88](2023)34565-34574

  • Takakuwa, O., Ogawa, Y., Miyata, R.

    Antagonistic fatigue crack acceleration/deceleration phenomena in Ni-based superalloy 718 under hydrogen-supply

    Scientific Reports.13[1](2023)6804

  • Ueji, R., Gong, W., Harjo, S., Kawasaki, T., Shibata, A., Kimura, Y., Inoue, T., Tsuchida, N.

    Deformation-Induced Martensitic Transformation at Tensile and Compressive Deformations of High-Carbon Bainitic Steel

    International Symposium on New Developments in Advanced High-Strength Sheet Steels, AHSS 2023.(2023)288-297

  • Yamagishi K., Ogawa Y., Ando D., Sutou Y.

    Development of Mg-Based Superelastic Alloy Through Aging Heat Treatment

    Minerals, Metals and Materials Series.(2023)181-187

  • Yamagishi K., Ogawa Y., Ando D., Sutou Y.

    Adjustable room temperature deformation behavior of Mg–Sc alloy: From superelasticity to slip deformation via TRIP effect

    Journal of Alloys and Compounds.931(2023)167507

  • Yamagishi K., Onyam K., Ogawa Y., Ando D., Sutou Y.

    Abnormal grain growth through cyclic heat treatment in a Mg–Sc alloy

    Journal of Alloys and Compounds.938(2023)168415

  • Yamagishi K., Takeuchi Y., Ogawa Y., Ando D., Sutou Y.

    B2 Ordering and Its Effect on Room Temperature Superelasticity in Mg–Sc Alloy

    Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science.54[7](2023)2841-2848