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  1. T. Takaki, S. Sakane, T. Aoki
    Natural convection on dendrite morphology: A high–performance phase–field lattice Boltzmann study
    ISIJ International, Vol. 63, 2023/01, 83-90. ( J-Stage
  2. A. Yamamura, S. Sakane, M. Ohno, H. Yasuda, T. Takaki
    Data assimilation with phase-field lattice Boltzmann method for dendrite growth with liquid flow and solid motion
    Computational Materials Science, Vol. 215, 2022/12, 111776. ( Science Direct
  3. Y. P. Sitompul, T. Aoki, S. Watanabe, T. Takaki
    An ordered active parameter tracking method for efficient multiphase field simulations
    Journal of Computational Science, Vol. 64, 2022/10, 101834. ( Science Direct
  4. E. Miyoshi, M. Ohno, Y. Shibuta, A. Yamanaka, T. Takaki
    Validating a mean-field theory via large-scale phase-field simulations for abnormal grain growth induced by nonuniform grain boundary properties
    Journal of Materials Science, Vol. 57, 2022/09, 16690–16709. ( Springer
  5. N. Takada, K. Mogi, T. Takaki, S. Someya, S. Baba, S. Saito
    Microfluidic simulations of droplet motion on structured solid surface using phase-field lattice Boltzmann method
    Multiphase Science and Technology, Vol. 34, Iss. 3, 2022/08, 17-33. ( Begell House
  6. S. Sakane, T. Aoki, T. Takaki
    Parallel-GPU AMR implementation for phase-field lattice Boltzmann simulation of a settling dendrite
    Computational Materials Science, Vol. 211, 2022/08, 111542. ( Science Direct
  7. S. Sakane, T. Aoki, T. Takaki
    Parallel GPU-accelerated adaptive mesh refinement on two-dimensional phase-field lattice Boltzmann simulation of dendrite growth
    Computational Materials Science, Vol. 211, 2022/08, 111507. ( Science Direct
  8. N. Kametani, M. Nakamura, K. Yashiro, T. Takaki
    Investigating residual stress evolution in the deposition process of diamond-like carbon film through molecular dynamics
    Computational Materials Science, Vol. 209, 2022/06, 111420. ( Science Direct
  9. R. Rojas, V. Sotomayor, T. Takaki, K. Hayashi, A. Tomiyama
    A phase field-finite difference lattice Boltzmann method for modeling dendritic growth solidification in the presence of melt convection
    Computers & Mathematics with Applications, Vol. 114, 2022/05, 180-187. ( Science Direct
  10. G. Kim, R. Yamada, T. Takaki, Y. Shibuta, M. Ohno
    Inverse analysis of anisotropy of solid-liquid interfacial free energy based on machine learning
    Computational Materials Science, Vol. 207, 2022/05, 111294. ( Science Direct
  11. R. Yamada, M. Kudo, G. Kim, T. Takaki, Y. Shibuta, M. Ohno
    Time invariance of three-dimensional morphology of equiaxed dendrite: A phase-field study
    Computational Materials Science, Vol. 204, 2022/03, 111173. ( Science Direct
  12. T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki
    Phase-field study on an array of tilted columnar dendrites during the directional solidification of a binary alloy
    Computational Materials Science, Vol. 203, 2022/02, 111143. ( Science Direct
  13. S. Sakane, T. Takaki, T. Aoki
    Parallel-GPU-accelerated adaptive mesh refinement for three-dimensional phase-field simulation of dendritic growth during solidification of binary alloy
    Materials Theory, Vol. 6, 2022/01, Article number: 3. ( Springer Open
  14. E. Miyoshi, M. Ohno, Y. Shibuta, A. Yamanaka, T. Takaki
    Novel estimation method for anisotropic grain boundary properties based on Bayesian data assimilation and phase-field simulation
    Materials & Design, Vol. 210, 2021/11, 110089. ( Science Direct )
  15. Y. Nagatsuma, M. Ohno, T. Takaki, Y. Shibuta
    Bayesian Data Assimilation of Temperature Dependence of Solid–Liquid Interfacial Properties of Nickel
    Nanomaterials, Vol. 11, 2021/9, 2308. ( MDPI )
  16. N. Yamanaka, S. Sakane, T. Takaki
    Multi-phase-field lattice Boltzmann model for polycrystalline equiaxed solidification with motion
    Computational Materials Science, Vol. 197, 2021/9, 110658. ( Science Direct )
  17. J. Lee, M. Ohno, Y. Shibuta, T. Takaki
    Uniquely selected primary dendrite arm spacing during competitive growth of columnar grains in Al–Cu alloy
    Journal of Crystal Growth, Vol. 558, 2021/03, 126014. ( Science Direct )
  18. Y.P. Sitompul, T. Aoki, T. Takaki
    Simulation of turbulent bubbly pipe flow with high density ratio and high reynolds number by using the lattice boltzmann method and a multi-phase field model
    International Journal of Multiphase Flow, Vol. 134, 2021/01, 103505. ( Science Direct )
  19. T. Takaki, K. Wada, K. Ishii, H. Yasuda
    Two-dimensional phase-field study for spangle texture formation in hot-dip galvanizing
    Computational Materials Science, 187, 2021/02, 110077. ( Science Direct )
  20. S. Sakane, T. Takaki
    Phase-field lattice Boltzmann method with two-relaxation-time model for dendrite growth of a binary alloy with melt convection
    Computational Materials Science, Vol. 186, 2021/01, 110070. ( Science Direct )
  21. E. Miyoshi, T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki
    Large-scale phase-field study of anisotropic grain growth: Effects of misorientation-dependent grain boundary energy and mobility
    Computational Materials Science, Vol. 186, 2021/01, 109992. ( Science Direct )
  22. C. Guo, T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Mohri
    Overgrowth behavior at converging grain boundaries during competitive grain growth: A two-dimensional phase-field study
    International Journal of Heat and Mass Transfer, Vol. 160, 2020/10, 120196. ( Science Direct )
  23. N. Yamanaka, S. Sakane, T. Takaki
    Application of multi-phase-field lattice Boltzmann method to semi-solid deformation
    IOP Conference Series: Materials Science and Engineering, Vol. 861, 2020/06, 012067. ( IOP science )
  24. Y. Mitsuyama, T. Takaki, S. Sakane, Y. Shibuta, M. Ohno
    Permeability tensor for various columnar dendrite structures
    IOP Conference Series: Materials Science and Engineering, Vol. 861, 2020/06, 012029. ( IOP science )
  25. S. Sakane, T. Takaki, M. Ohno, Y. Shibuta, T. Aoki
    Two-dimensional large-scale phase-field lattice Boltzmann simulation of polycrystalline equiaxed solidification with motion of a massive number of dendrites
    Computational Materials Science, Vol. 178, 2020/06, 109639. ( Science Direct )
  26. M. Ohno, Y. Oka, S. Sakane, Y. Shibuta, T. Takaki
    Bayesian inference of solid-liquid interfacial properties out of equilibrium
    Physical Review E, Vol. 101, Iss. 5, 2020/05, 052121. ( APS )
  27. Y. Mitsuyama, T. Takaki, S. Sakane, Y. Shibuta, M. Ohno
    Permeability tensor for columnar dendritic structures: Phase–field and lattice Boltzmann study
    Acta Materialia, Vol. 188, 2020/04, 282-287. ( Science Direct )
  28. E. Miyoshi, T. Takaki, M. Ohno, Y. Shibuta
    Accuracy Evaluation of Phase-field Models for Grain Growth Simulation with Anisotropic Grain Boundary Properties
    ISIJ International, Vol. 60, 2020/01, 160-167. ( J-Stage )
  29. T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki
    Large–scale phase–field lattice Boltzmann study on the effects of natural convection on dendrite morphology formed during directional solidification of a binary alloy
    Computational Materials Science, Vol. 171, 2020/01, 109209. ( ScienceDirect )
  30. S. Sakane, T. Takaki, M. Ohno, Y. Shibuta
    Simulation method based on phase-field lattice Boltzmann model for long-distance sedimentation of single equiaxed dendrite
    Computational Materials Science, Vol. 164, 2019/06, 39-45. ( Science Direct )
  31. G. Kim, T. Takaki, Y. Shibuta, S. Sakane, K. Matsuura, M. Ohno
    A parametric study of morphology selection in equiaxed dendritic solidification
    Computational Materials Science, Vol. 162, 2019/05, 76-81. ( Science Direct )
  32. T. Takaki, S. Sakane, M. Ohno, Y. Shibuta
    Competitive growth during directional solidification of a binary alloy with natural convection: two-dimensional phase-field study
    Modelling and Simulation in Materials Science and Engineering, Vol. 27, Num. 5, 2019/05, 054001. ( IOP Science )
  33. Y. Shibuta, S. Sakane, E. Miyoshi, T. Takaki, M. Ohno
    Micrometer-scale molecular dynamics simulation of microstructure formation linked with multi-phase-field simulation in same space scale
    Modelling and Simulation in Materials Science and Engineering, Vol. 27, Num. 5, 2019/05, 054002. ( IOP Science )
  34. E. Miyoshi, T. Takaki, M. Ohno, Y. Shibuta, S. Sakane, T. Aoki
    Large-scale phase-field simulation of three-dimensional isotropic grain growth in polycrystalline thin films
    Modelling and Simulation in Materials Science and Engineering, Vol. 27, Num. 5, 2019/05, 054003. ( IOP Science )
  35. S. Sakane, T. Takaki, M. Ohno, Y. Shibuta, T. Aoki
    Acceleration of phase-field lattice Boltzmann simulation of dendrite growth with thermosolutal convection by the multi-GPUs parallel computation with multiple mesh and time step method
    Modelling and Simulation in Materials Science and Engineering, Vol. 27, Num. 5, 2019/05, 054004. ( IOP Science )
  36. M. Ohno, Y. Shibuta, T. Takaki
    Multi-Phase-Field Modeling of Transformation Kinetics at Multiple Scales and Its Application to Welding of Steel
    Materials Transactions, Vol. 60, 2019/02, 170-179. ( J-Stage )
  37. T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki
    Permeability prediction for flow normal to columnar solidification structures by large–scale simulations of phase–field and lattice Boltzmann methods
    Acta Materialia, Vol. 164, 2019/02, 237-249. ( Science Direct )
  38. S. Aihara, T. Takaki, N. Takada
    Multi-phase-field modeling using a conservative Allen–Cahn equation for multiphase flow
    Computers & Fluids, Vol. 178, 2019/01, 141-151. ( Science Direct )
  39. E. Miyoshi, T. Takaki, M. Ohno, Y. Shibuta, S. Sakane, T. Shimokawabe, T. Aoki
    Correlation between three-dimensional and cross-sectional characteristics of ideal grain growth: large-scale phase-field simulation study
    Journal of Materials Science, Vol. 53, Issu. 21, 2018/11, 15165-15180. ( Springer )
  40. Y. Shibuta, M. Ohno, T. Takaki
    Advent of Cross-Scale Modeling: High-Performance Computing of Solidification and Grain Growth
    Advanced Theory and Simulations, Vol. 1, 2018/09, 1800065. ( Wiley )
  41. T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki, C.-A. Gandin
    Competitive grain growth during directional solidification of a polycrystalline binary alloy: Three-dimensional large-scale phase-field study
    Materialia, Vol. 1, 2018/09, 104-113. ( Science Direct )
  42. E. Miyoshi, T. Takaki, Y. Shibuta, M. Ohno
    Bridging molecular dynamics and phase-field methods for grain growth prediction
    Computational Materials Science, Vol. 152, 2018/09, 118-124. ( Science Direct )
  43. S. Okita, E. Miyoshi, S. Sakane, T. Takaki, M. Ohno, Y. Shibuta
    Grain growth kinetics in submicrometer-scale molecular dynamics simulation
    Acta Materialia, Vol. 153, 2018/07, 108-116. ( Science Direct )
  44. J. Kato, S. Ogawa, T. Ichibangase, T. Takaki
    Multi-phase field topology optimization of polycrystalline microstructure for maximizing heat conductivity
    Structural and Multidisciplinary Optimization, Vol. 57, 2018/05, 1937-1954. ( Springer )
  45. T. Takaki, R. Sato, R. Rojas, M. Ohno, Y. Shibuta
    Phase-field lattice Boltzmann simulations of multiple dendrite growth with motion, collision, and coalescence and subsequent grain growth
    Computational Materials Science, Vol. 147, 2018/05, 124–131. ( Science Direct )
  46. S. Sakane, T. Takaki, M. Ohno, Y. Shibuta, T. Shimokawabe, T. Aoki
    Three-dimensional morphologies of inclined equiaxed dendrites growing under forced convection by phase-field-lattice Boltzmann method
    Journal of Crystal Growth, Vol. 483, 2018/02, 147-155. ( Science Direct )
  47. S.K. Deb Nath, Y. Shibuta, M. Ohno, T. Takaki, T. Mohri
    A Molecular Dynamics Study of Partitionless Solidification and Melting of Al–Cu Alloys
    ISIJ International, Vol. 57, 2017/10, 1774-1779. ( J-Stage )
  48. M. Ohno, T. Takaki, Y. Shibuta
    Variational formulation of a quantitative phase-field model for nonisothermal solidification in a multicomponent alloy
    Physical Review E, Vol. 96, 2017/09, 033311. ( APS )
  49. T. Takaki, R. Rojas, S. Sakane, M. Ohno, Y. Shibuta, T. Shimokawabe, T. Aoki
    Phase-field-lattice Boltzmann studies for dendritic growth with natural convection
    Journal of Crystal Growth, Vol. 474, 2017/09, 146-153. ( Science Direct )
  50. S. Sakane, T. Takaki, R. Rojas, M. Ohno, Y. Shibuta, T. Shimokawabe, T. Aoki
    Multi-GPUs parallel computation of dendrite growth in forced convection using the phase-field-lattice Boltzmann model
    Journal of Crystal Growth, Vol. 474, 2017/09, 154-159. ( Science Direct )
  51. E. Miyoshi, T. Takaki
    Multi-phase-field study of the effects of anisotropic grain-boundary properties on polycrystalline grain growth
    Journal of Crystal Growth, Vol. 474, 2017/09, 160-165. ( Science Direct )
  52. S. Okita, W. Verestek, S. Sakane, T. Takaki, M. Ohno, Y. Shibuta
    Molecular dynamics simulations investigating consecutive nucleation, solidification and grain growth in a twelve-million-atom Fe-system
    Journal of Crystal Growth, Vol. 474, 2017/09, 140-145. ( Science Direct )
  53. E. Miyoshi, T. Takaki, M. Ohno, Y. Shibuta, S. Sakane, T. Shimokawabe, T. Aoki
    Ultra-large-scale phase-field simulation study of ideal grain growth
    npj Computational Materials, 3, 25, 20
    17/07, 1-6. ( Nature.com )
  54. Y. Shibuta, S. Sakane, E. Miyoshi, S. Okita, T. Takaki, M. Ohno
    Heterogeneity in homogeneous nucleation from billion-atom molecular dynamics simulation of solidification of pure metal
    Nature Communications, 8, 2017/04, 1-9. ( Nature.com )
  55. T. Takaki, J. Kato
    Phase-field topology optimization model that removes the curvature effects
    Mechanical Engineering Journal, Vol. 4, No. 2, 2017/04, 16-00462. ( J-Stage )
  56. M. Ohno, T. Takaki, Y. Shibuta
    Numerical testing of quantitative phase-field models with different polynomials for isothermal solidification in binary alloys
    Journal of Computational Physics, Vol. 335, 2017/04, 621-636. ( Science Direct )
  57. T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Shimokawabe, T. Aoki
    Primary arm array during directional solidification of a single-crystal binary alloy: Large-scale phase-field study
    Acta Materialia, Vol. 118, 2016/10, 230-243. ( Science Direct : Open Access)
  58. T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Shimokawabe, T. Aoki
    Large-scale Phase-field Studies of Three-dimensional Dendrite Competitive Growth at the Converging Grain Boundary during Directional Solidification of a Bicrystal Binary Alloy
    ISIJ International, Vol. 56, No. 8, 2016/08, 1427-1435. ( J-Stage )
  59. E. Miyoshi, T. Takaki
    Extended higher-order multi-phase-field model for three-dimensional anisotropic-grain-growth simulations
    Computational Materials Science, Vol. 120, 2016/07, 77-83. ( Science Direct )
  60. T. Takaki, M. Ohno, Y. Shibuta, S. Sakane, T. Shimokawabe, T. Aoki
    Two-dimensional phase-field study of competitive grain growth during directional solidification of polycrystalline binary alloy
    Journal of Crystal Growth, Vol. 442, 2016/02, 14–24. ( Science Direct )
  61. Y. Shibuta, S. Sakane, T. Takaki, M. Ohno
    Submicrometer-scale molecular dynamics simulation of nucleation and solidification from undercooled melt: Linkage between empirical interpretation and atomistic nature
    Acta Materialia, Vol.105, 2016/02, 328–337. ( Science Direct )
  62. E. Miyoshi, T. Takaki
    Validation of a novel higher-order multi-phase-field model for grain-growth simulations using anisotropic grain-boundary properties
    Computational Materials Science, Vol. 112, 2016/02, 44–51. ( Science Direct )
  63. M. Ohno, T. Takaki, Y. Shibuta
    Variational formulation and numerical accuracy of a quantitative phase-field model for binary alloy solidification with two-sided diffusion
    Physical Review E, Vol. 93, 2016/01, 012802. ( APS )
  64. Y. Shibuta, K. Oguchi, T. Takaki, M. Ohno
    Homogeneous nucleation and microstructure evolution in million-atom molecular dynamics simulation
    Scientific Reports 5, 2015/08, 13534. ( Nature.com )
  65. Y. Shibuta, M. Ohno, T. Takaki
    Solidification in a Supercomputer: From Crystal Nuclei to Dendrite Assemblages
    JOM, Vol. 67, No. 8, 2015/08, 1793-1804. ( Springer )
  66. T. Takaki, R. Rojas, M. Ohno, T. Shimokawabe, T. Aoki
    GPU phase-field lattice Boltzmann simulations of growth and motion of a binary alloy dendrite
    Materials Science and Engineering, Vol. 84, 2015/06, 012066. ( IOP )
  67. S. Sakane, T. Takaki, M. Ohno, T. Shimokawabe, T. Aoki
    GPU-accelerated 3D phase-field simulations of dendrite competitive growth during directional solidification of binary alloy
    Materials Science and Engineering, Vol. 84, 2015/06, 012063. ( IOP )
  68. M. Ohno, T. Takaki, Y. Shibuta
    Microsegregation in multicomponent alloy analysed by quantitative phase-field model
    Materials Science and Engineering, Vol. 84, 2015/06, 012075. ( IOP )
  69. R. Rojas, T. Takaki, M. Ohno
    A phase-field-lattice Boltzmann method for modeling motion and growth of a dendrite for binary alloy solidification in the presence of melt convection
    Journal of Computational Physics, Vol. 298, 2015/10, 29–40. ( Science Direct )
  70. T. Takaki, A. Yamanaka, Y. Tomita
    Phase-Field Modeling for Dynamic Recrystallization
    Advanced Structured Materials, Vol. 64, 2015/06, 441-459. ( Springer )
  71. T. Takaki, K. Nakagawa, Y. Morita, E. Nakamachi
    Phase-field modeling for axonal extension of nerve cells
    Mechanical Engineering Journal, Vol. 2, No. 3, 2015/06, 15-00063. ( J-Stage )
  72. A. Yamanaka, T. Takaki
    Multi-Phase-Field Analysis of Stress–Strain Curve and Ferrite Grain Formation during Dynamic Strain-Induced Ferrite Transformation
    Key Engineering Materials, Vol. 626, 2015, 81-84. ( Scientific.Net )
  73. A. Yamanaka, T. Takaki
    Multi-Phase-Field Simulation of Flow Stress and Microstructural Evolution during Deformation-Induced Ferrite Transformation in a Fe-C Alloy
    ISIJ International, Vol. 54, No. 12, 2014/12, 2917-2925. ( J-Stage )
  74. T. Takaki, M. Ohno, T. Shimokawabe, T. Aoki
    Two-dimensional phase-field simulations of dendrite competitive growth during the directional solidification of a binary alloy bicrystal
    Acta Materialia, 81 (2014) 272-283. ( Science Direct )
  75. K. Oshima, T. Takaki, M. Muramatsu
    Development of multi-phase-field crack model for crack propagation in polycrystal
    International Journal of Computational Materials Science and Engineering, Vol. 3, No. 2, 2014/05, 1450009-1-1450009-9. ( World Scientific )
  76. T. Takaki
    Phase-field Modeling and Simulations of Dendrite Growth [review paper]
    ISIJ International, Vol.54, No.2, 2014/02, 437-444. ( J-Stage )
  77. C. Yoshimoto, T. Takaki
    Multiscale Hot-working Simulations Using Multi-phase-field and Finite Element Dynamic Recrystallization Model
    ISIJ International, Vol.54, No.2, 2014/02, 452-459. ( J-Stage )
  78. T. Takaki, C. Yoshimoto, A. Yamanaka, Y. Tomita
    Multiscale modeling of hot-working with dynamic recrystallization by coupling microstructure evolution and macroscopic mechanical behavior
    International Journal of Plasticity, Vol.52, 2014/01, 105–116. ( Science Direct )
  79. T. Takaki, T. Shimokawabe, M. Ohno, A. Yamanaka, T. Aoki
    Unexpected selection of growing dendrites by very-large-scale phase-field simulation
    Journal of Crystal Growth, Vol.382, 2013/11, 21–25. ( Science Direct )
  80. A. Yamanaka, T. Takaki
    Simulation of Microstructure Evolution and Deformation Behavior for Dual-Phase Steel by Multi-Phase-Field Method and Elastoplastic Finite Element Method
    International Journal of Automation Technology, Vol. 7, No. 1, 2013/01, 16-23. ( Fujipress )
  81. A. Yamanaka, T. Takaki, T. Aoki, T. Shimokawabe
    Multiphase Field Simulation of Austenite-to-Ferrite Transformation Accelerated by GPU Computing
    Journal of Computational Science and Technology, Vol. 6, No. 3, 2012/12, 182-197. ( J-Stage )
  82. A. Yamanaka, T. Takaki, Y. Tomita
    Simulation of Austenite-to-ferrite Transformation in Deformed Austenite by Crystal Plasticity Finite Element Method and Multiphase- field Method
    ISIJ International, Vol.52, 2012/04, 659-668. ( J-Stage )
  83. 高木知弘
    Phase-fieldトポロジー最適設計モデルの構築と基本特性評価
    日本機械学会論文集(A編), 77巻783号, 2011/11, 1840-1850. ( J-Stage )
  84. T. Shimokawabe, T. Aoki, T. Takaki, A. Yamanaka, A. Nukada, T. Endo, N. Maruyama, S. Matsuoka
    Peta-scale Phase-Field Simulation for Dendritic Solidification on the TSUBAME 2.0 Supercomputer
    SC '11 Proceedings of 2011 International Conference for High Performance Computing, Networking, Storage and Analysis, 2011/11, 1-11. ( ACM )
  85. T. Takaki, H. Kashima
    Numerical investigations of stress in dendrites caused by gravity
    Journal of Crystal Growth, Vol.337, 2011/12, 97-101. ( Science Direct )
  86. T. Takaki, A. Yamanaka, Y. Tomita
    Multi-phase-field Simulations of Dynamic Recrystallization during Transient Deformation
    ISIJ International, Vol. 51, No. 10, 2011/10, 1717-1723. ( J-Stage )
  87. 尾崎拓也, 高木知弘, 佐藤広嗣
    充填材入りPTFEガスケットを用いた管フランジ締結体の性能評価
    材料, 第60巻6号, 2011/06, 521-526. ( J-Stage )
  88. A. Yamanaka, T. Aoki, S. Ogawa, T. Takaki
    GPU-accelerated phase-field simulation of dendritic solidification in a binary alloy
    Journal of Crystal Growth, Vol.318, 2011/03, 40-45. ( Science Direct )
  89. 佐藤広嗣, 黒河真也, 山邊雅之, 高木知弘
    ソフトガスケットを用いた単一ボルト締結体の高温長期軸力緩和挙動の評価
    日本機械学会論文集(C編), 76巻769号, 2010/9, 2219-2224. ( J-Stage )
  90. 山中晃徳, 小川慧, 青木尊之, 高木知弘
    GPUによるマルチフェーズフィールドシミュレーション
    日本計算工学会論文集, Vol.2010, 2010/6, No. 20100009. ( J-Stage )
  91. T. Takaki, Y. Tomita
    Static recrystallization simulations starting from predicted deformation microstructure by coupling multi-phase-field method and finite element method based on crystal plasticity
    International Journal of Mechanical Sciences, Vol.52, 2010/02, 320-328. ( Science Direct )
  92. A. Yamanaka, T. Takaki, Y. Tomita
    Elastoplastic phase-field simulation of martensitic transformation with plastic deformation in polycrystal
    International Journal of Mechanical Sciences, Vol.52, 2010/02, 245-250. ( Science Direct )
  93. T. Hirouchi, T. Takaki, Y. Tomita
    Effects of temperature and grain size on phase-field-crystal deformation simulation
    International Journal of Mechanical Sciences, Vol.52, 2010/02, 309-319. ( Science Direct )
  94. R.D. Ramdan, T. Takaki, K. Yashiro, Y. Tomita
    The Effects of Structure Orientation on the Growth of Fe2B Boride by Multi-Phase-Field Simulation
    Materials Transactions, Vol.51, No. 1, 2010/01, 62-67. ( JIM )
  95. 山中晃徳, 高木知弘, 冨田佳宏
    結晶塑性Phase-Fieldモデルの構築と塑性変形を伴う微視組織形成過程のシミュレーション
    日本機械学会論文集(A編), 75巻760号, 2009/12, 1794-1803. ( J-Stage )
  96. T. Takaki, Y. Hisakuni, T. Hirouchi, A. Yamanaka, Y. Tomita
    Multi-phase-field simulations for dynamic recrystallization
    Computational Materials Science, Vol.45, 2009/6, 881-888. ( Science Direct )
  97. T. Hirouchi, T. Takaki, Y. Tomita
    Development of numerical scheme for phase field crystal deformation simulation
    Computational Materials Science, Vol.44, 2009/2, 1192-1197. ( Science Direct )
  98. 廣内智之, 高木知弘, 冨田佳宏
    Phase Field Crystal法による材料変形シミュレーション
    日本機械学会論文集(A編), 74巻747号, 2008/11, 1441-1446. ( J-Stage )
  99. R. D. Ramdan, T. Takaki, Y. Tomita
    Free Energy Problem for the Simulations of the Growth of Fe2B Phase Using Phase-Field Method
    Materials Transactions, Vol.49, 2008/11, 2625-2631. ( J-Stage )
  100. T. Takaki, T. Hirouchi, Y. Hisakuni, A. Yamanaka, Y. Tomita
    Multi-Phase-Field Model to Simulate Microstructure Evolutions during Dynamic Recrystallization
    Materials Transactions, Vol.49, 2008/11, 2559-2565. ( J-Stage )
  101. A. Yamanaka, T. Takaki, Y. Tomita
    Elastoplastic phase-field simulation of self- and plastic accommodations in Cubic→tetragonal martensitic transformation
    Materials Science and Engineering A, Vol.491, 2008/9, 378-384. ( Science Direct )
  102. A. Yamanaka, T. Takaki, Y. Tomita
    Coupled simulation of microstructural formation and deformation behavior of ferrite-pearlite steel by phase-field method and homogenization method
    Materials Science and Engineering A, Vol.480, 2008/5, 244-252. ( Science Direct )
  103. T. Takaki, T. Hirouchi, Y. Tomita
    Phase-field study of interface energy effect on quantum dot morphology
    Journal of Crystal Growth, Vol.310, 2008/4, 2248-2253. ( Science Direct )
  104. A. Yamanaka, T. Takaki, Y. Tomita
    Multi-phase-field modeling of diffusive solid phase transition in carbon steel during continuous cooling transformation
    Journal of Crystal Growth, Vol.310, 2008/4, 1337-1342. ( Science Direct )
  105. T. Takaki, Y. Yamanaka, Y. Higa, Y. Tomita
    Phase-field model during static recrystallization based on crystal-plasticity theory
    Journal of Computer-Aided Materials Design, Vol.14, 2007/12, 75-84. ( Springer )
  106. T. Takaki, A. Yamanaka, Y. Tomita
    Phase-Field Modeling and Simulation of Nucleation and Growth of Recrystallized Grains
    Materials Science Forum, Vols.558-559, 2007/10, 1195-1200. ( Scientific.Net )
  107. T. Takaki, M. Asanishi, A. Yamanaka, Y. Tomita
    Phase-Field Simulation During Spherulite Formation of Polymer
    Key Engineering Materials, Vols.345-346, 2007/8, 939-942. ( Scientific.Net )
  108. A. Yamanaka, T. Takaki, Y. Tomita
    Phase-field Modeling of Morphological Change of Ferrite during Decomposition of Austenite in Fe-C Alloy
    Key Engineering Materials, Vols.345-346, 2007/8, 935-938. ( Scientific.Net )
  109. 名護典寛, 高木知弘, 佐藤広嗣
    ガスケットの粘弾塑性特性とボルト締結体の軸力緩和予測
    圧力技術, 第45巻4号, 2007/7, 195-204. ( J-Stage )
  110. 高木知弘, 名護典寛, 佐藤広嗣, 山中幸
    ガスケットの粘弾塑性挙動を考慮したボルト締結体の力学的特性の評価 : PTFEガスケットを用いた場合
    日本機械学会論文集(C編), 73巻728号, 2007/4, 1245-1252. ( J-Stage )
  111. 高木知弘, 山中晃徳, 比嘉吉一, 冨田佳宏
    静的一次再結晶過程のPhase-fieldモデルと解析手順の構築
    日本機械学会論文集(A編), 第73巻728号, 2007/4, 482-489. ( J-Stage )
  112. 山中晃徳, 高木知弘, 冨田佳宏
    Phase-field法によるFe-C合金のγ→α変態と炭素拡散挙動の評価
    日本機械学会論文集(A編), 第73巻726号, 2007/2, 209-215. ( J-Stage )
  113. T. Takaki, Y. Tomita
    Phase-Field Simulation of Surface Morphology Evolution during Epitaxial Growth of SiGe/Si System
    Key Engineering Materials, Vols.340-341, 2007/1, 1073-1078. ( Scientific.Net )
  114. A. Yamanaka, T. Takaki, Y. Tomita
    Phase-Field Simulation of Austenite to Ferrite Transformation and Widmanstatten Ferrite Formation in Fe-C Alloy
    Materials Transactions, Vol.47, No.11, 2006/11, 2725-2731. ( J-Stage )
  115. 山中晃徳, 高木知弘, 冨田佳宏
    Fe-C 合金におけるWidmanstatten フェライト形成過程のPhase-field シミュレーション
    日本機械学会論文集(A編), 第72巻723号, 2006/11, 1676-1683. ( J-Stage )
  116. 高木知弘, 冨田佳宏
    自己組織化量子ドットの形態発展とBimodalサイズ分布のPhase-Fieldシミュレーション
    材料, 第55巻10号, 2006/10, 929-935. ( J-Stage )
  117. T. Takaki, T. Hasebe, Y. Tomita
    Two-dimensional phase-field simulation of self-assembled quantum dot formation
    Journal of Crystal Growth, Vol.287, 2006/1, 495-499. ( ScienceDirect )
  118. T. Takaki, T. Hasebe, Y. Tomita
    Phase-Field Simulation of Self-Assembled Quantum Dots
    Theoretical and Applied Mechanics Japan, Vol.54, 2005/9, 341-347. ( J-Stage )
  119. T. Takaki, T. Fukuoka, Y. Tomita
    Phase-Field Simulation During Directional Solidification of A Binary Alloy Using Adaptive Finite Element Method
    Journal of Crystal Growth, Vol.283, 2005/9, 263-278. ( ScienceDirect )
  120. 高木知弘, 長谷部忠司, 冨田佳宏
    量子ドット生成プロセスのPhase-Fieldシミュレーション
    材料, 第54巻第6号, 2005/6, 595-600. ( J-Stage )
  121. 高木知弘, 佐藤広嗣, 山中幸, 福岡俊道
    管フランジ締結体の漏洩特性の評価
    日本機械学会論文集(C編), 第71巻702号, 2005/2, 745-752. ( J-Stage )
  122. 辻裕一, 高木知弘, 澤俊行
    フランジ継手締付け指針の開発
    圧力技術, 第42巻6号, 2004/11, 337-346. ( J-Stage )
  123. 山本裕介, 高木知弘, 冨田佳宏
    Phase Field法による多結晶金属の結晶粒成長シミュレーション
    日本機械学会論文集(A編), 第70巻699号, 2004/11, 1551-1557. ( J-Stage )
  124. 高木知弘, 福岡俊道
    管フランジ締結体のボルト締付け指針の提案
    日本機械学会論文集(C編), 第70巻696号, 2004/8, 2492-2499. ( J-Stage )
  125. 高木知弘, 福岡俊道, 冨田佳宏
    二元合金の一方向凝固過程における界面異方性形態のフェーズフィールドシミュレーション
    日本機械学会論文集(A編), 第70巻691号, 2004/3, 456-463. ( J-Stage )
  126. 高木知弘, 福岡俊道
    管フランジ締結体の締付け特性におよぼすボルト締付け軸力のばらつきの影響
    圧力技術, 第42巻1号, 2004/1, 28-35. ( J-Stage )
  127. T. Fukuoka, T. Takaki
    Elastic Plastic Finite Element Analysis of Bolted Joint During Tightening Process
    ASME Journal of Mechanical Design, Vol.125, 2003/12, 823-830. ( ASME )
  128. T. Fukuoka, T. Takaki
    Finite Element Simulation of Bolt-Up Process of Pipe Flange Connections With Spiral Wound Gasket
    ASME Journal of Pressure Vessel Technology, Vol.125, 2003/11, 371-378. ( ASME )
  129. 高木知弘, 福岡俊道
    有限要素解析による管フランジ締結体のボルト締付け指針の検討
    圧力技術, 第41巻3号, 2003/5, 106-114. ( J-Stage )
  130. 高木知弘, 福岡俊道
    管フランジ締結体のボルト抜き取り過程の有限要素解析
    日本機械学会論文集(A編), 第68巻675号, 2002/11, 1622-1627. ( J-Stage )
  131. 高木知弘, 福岡俊道
    管フランジ締結体の効率的なボルト締付け手順 : 有限要素解析と弾性相互作用係数法による検討
    日本機械学会論文集(A編), 第68巻668号, 2002/4, 550-557. ( J-Stage )
  132. 高木知弘, 福岡俊道
    管フランジ締結体の三次元有限要素解析(石綿ジョイントシートガスケットを用いた場合)
    日本機械学会論文集(A編), 第68巻665号, 2002/01, 8-14. ( J-Stage )
  133. 高木知弘, 福岡俊道
    ボルト締付け過程の弾塑性有限要素解析
    日本機械学会論文集(A編), 第67巻660号, 2001/8, 1269-1275. ( J-Stage )
  134. 福岡俊道, 高木知弘
    有限要素解析による管フランジ締結体のボルト締付け過程の評価:うず巻形ガスケットを用いた場合
    日本機械学会論文集(A編), 第66巻650号, 2000/10, 1834-1840. ( J-Stage )
  135. T. Fukuoka, T. Takaki
    Finite Element Simulation of Bolt-Up Process of Pipe Flange Connections
    ASME Journal of Pressure Vessel Technology, Vol.123 , 2001/8, 282-287. ( ASME )
  136. 福岡俊道, 高木知弘
    管フランジ締結体の三次元有限要素解析 : 金属平形ガスケットの影響

    日本機械学会論文集(A編), 第66巻644号, 2000/4, 651-657. ( J-Stage )
  137. 福岡俊道, 高木知弘
    三次元有限要素解析による管フランジのボルト締付け順序の評価

    日本機械学会論文集(A編), 第64巻627号, 1998/11, 2734-2740. ( J-Stage )
  138. 福岡俊道, 高木知弘
    管フランジの三次元有限要素解析 (座面形状の影響について)
    日本機械学会論文集(A編), 第64巻625号, 1998/9, 2402-2407. ( J-Stage )
  139. T. Fukuoka, T. Takaki
    Mechanical Behaviors of Bolted Joint in Various Clamping Configurations
    ASME Journal of Pressure Vessel Technology, Vol.120, 1998/8, 226-231. ( ASME )
  140. T. Fukuoka, T. Takaki
    Mechanical Behaviors of Bolted Joint during Tightening Using Torque Control
    JSME International Journal Series A, Vol. 41, No. 2, 1998/4, 185-191. ( J-Stage )
  141. 福岡俊道, 高木知弘
    トルク法によるボルト締付け過程の力学的特性について
    日本機械学会論文集 A編, 第63巻609号, 1997/5, 1083-1088. ( J-Stage )

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