Computational Materials Design Lab.

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Publication

last update, 22 June, 2024   

Journal (Google Scholar | Scopus | ResearchGate)

    2024
  1. Mother-leaf-method accelerated parallel-GPU AMR phase-field simulations of dendrite growth
    S. Sakane, R. Suzuki, T. Aoki, T. Takaki
    Computational Materials Science, Vol. 244, 2024/09, 113184. (Science Direct)

  2. Long-distance settling simulation of equiaxed dendrite by a moving-frame algorithm: phase-field lattice Boltzmann study with parallel-GPU AMR
    S. Sakane, T. Takaki
    Journal of Physics: Conference Series, Vol. 2766, 2024/06, 012194. (IOP)

  3. Multi-phase-field lattice Boltzmann simulations of semi-solid simple shear deformation in thin film
    N, Yamanaka, S. Sakane, T. Takaki
    Journal of Physics: Conference Series, Vol. 2766, 2024/06, 012195. (IOP)

  4. Computing the permeability of tilted columnar dendrites with phase-field and lattice Boltzmann methods
    T. Takaki, Y. Mitsuyama, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki
    International Journal of Thermofluids, Vol. 22, 2024/05, 100649. (Science Direct)

  5. 2023
  6. Phase-field lattice Boltzmann simulation of three-dimensional settling dendrite with natural convection during nonisothermal solidification of binary alloy
    S. Sakane, T. Takaki, T. Aoki
    IOP Conference Series: Materials Science and Engineering, Vol. 1281, 2023/05, 012053. (IOP)

  7. High-performance GPU computing of phase-field lattice Boltzmann simulations for dendrite growth with natural convection
    T. Takaki, S. Sakane, R. Suzuki
    IOP Conference Series: Materials Science and Engineering, Vol. 1281, 2023/05, 012056. (IOP)

  8. Development of a data assimilation system for the investigation of the dendrite solidification process by integrating in situ X-ray imaging and phase-field simulation
    A. Yamamura, S. Sakane, M. Ohno, H. Yasuda, T. Takaki
    IOP Conference Series: Materials Science and Engineering, Vol. 1281, 2023/05, 012049. (IOP)

  9. 2D multi-phase-field lattice Boltzmann simulations of semi-solid shear deformation
    N. Yamanaka, S. Sakane, T. Takaki
    IOP Conference Series: Materials Science and Engineering, Vol. 1274, 2023/03, 012045. (IOP)

  10. Data assimilation for dendritic solidification with melt convection: phase-field lattice Boltzmann study
    A. Yamamura, S. Sakane, M. Ohno, H. Yasuda, T. Takaki
    IOP Conference Series: Materials Science and Engineering, Vol. 1274, 2023/03, 012044. (IOP)

  11. Effective evaluation of permeability for interdendritic fluid flow using adaptive mesh refinement: Phase-field lattice Boltzmann study
    Y. Mitsuyama, S. Sakane, T. Takaki
    IOP Conference Series: Materials Science and Engineering, Vol. 1274, 2023/03, 012043. (IOP)

  12. Preliminary system for data assimilation to infer material parameters from directional solidification experiments: twin experimental study using phase-field method
    Y. Imai, S. Sakane, M. Ohno, H. Yasuda, T. Takaki
    IOP Conference Series: Materials Science and Engineering, Vol. 1274, 2023/03, 012040. (IOP)

  13. Multi-Phase-Field Framework for Epitaxial Grain Growth in Selective Laser Melting Additive Manufacturing with Multi-Track and Multi-Layer
    T. Takaki, Y. Takahashi, S. Sakane
    Materials Transactions, Vol. 64, 2023/06, 1150-1159. (J-Stage)

  14. Natural convection on dendrite morphology: A high–performance phase–field lattice Boltzmann study
    T. Takaki, S. Sakane, T. Aoki
    ISIJ International, Vol. 63, 2023/01, 83-90. (J-Stage)

  15. 2022
  16. Data assimilation with phase-field lattice Boltzmann method for dendrite growth with liquid flow and solid motion
    A. Yamamura, S. Sakane, M. Ohno, H. Yasuda, T. Takaki
    Computational Materials Science, Vol. 215, 2022/12, 111776. (Science Direct : Open Access)

  17. Parallel-GPU AMR implementation for phase-field lattice Boltzmann simulation of a settling dendrite
    S. Sakane, T. Aoki, T. Takaki
    Computational Materials Science, Vol. 211, 2022/08, 111542. (Science Direct : Open Access)

  18. Parallel GPU-accelerated adaptive mesh refinement on two-dimensional phase-field lattice Boltzmann simulation of dendrite growth
    S. Sakane, T. Aoki, T. Takaki
    Computational Materials Science, Vol. 211, 2022/08, 111507. (Science Direct)

  19. Parallel-GPU-accelerated adaptive mesh refinement for three-dimensional phase-field simulation of dendritic growth during solidification of binary alloy
    S. Sakane, T. Takaki, T. Aoki
    Materials Theory, Vol. 6, 2022/01, 3. (Springer : Open Access)

  20. Phase-field study on an array of tilted columnar dendrites during the directional solidification of a binary alloy
    T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki
    Computational Materials Science, Vol. 203, 2022/01, 111143. (Science Direct)

  21. 2021
  22. Multi-phase-field lattice Boltzmann model for polycrystalline equiaxed solidification with motion
    N. Yamanaka, S. Sakane, T. Takaki
    Computational Materials Science, Vol. 197, 2021/09, 110658. (Science Direct)

  23. Phase-field lattice Boltzmann method with two-relaxation-time model for dendrite growth of a binary alloy with melt convection
    S. Sakane, T. Takaki
    Computational Materials Science, Vol. 186, 2021/01, 110070. (Science Direct)

  24. Large-scale phase-field study of anisotropic grain growth: Effects of misorientation-dependent grain boundary energy and mobility
    E. Miyoshi, T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki
    Computational Materials Science, Vol. 186, 2021/01, 109992. (Science Direct)

  25. 2020
  26. Overgrowth behavior at converging grain boundaries during competitive grain growth: A two-dimensional phase-field study
    C. Guo, T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Mohri
    International Journal of Heat and Mass Transfer, Vol. 160, 2020/10, 120196. (Science Direct)

  27. Permeability tensor for various columnar dendrite structures
    Y. Mitsuyama, T. Takaki, S. Sakane, Y. Shibuta, M. Ohno
    IOP Conference Series: Materials Science and Engineering, Vol. 861, 2020/05, 012029. (IOP)

  28. Application of multi-phase-field lattice Boltzmann method to semi-solid deformation
    N. Yamanaka, S. Sakane, T. Takaki
    IOP Conference Series: Materials Science and Engineering, Vol. 861 2020/05 012067. (IOP)

  29. Bayesian inference of solid-liquid interfacial properties out of equilibrium
    M. Ohno, Y. Oka, S. Sakane, Y. Shibuta, T. Takaki
    Physical Review E, Vol. 101, Iss. 5, 2020/05, 052121. (APS)

  30. Two-dimensional large-scale phase-field lattice Boltzmann simulation of polycrystalline equiaxed solidification with motion of a massive number of dendrites
    S. Sakane, T. Takaki, M. Ohno, Y. Shibuta, T. Aoki
    Computational Materials Science, Vol. 178 2020 109639. (Science Direct)

  31. Permeability tensor for columnar dendritic structures: Phase–field and lattice Boltzmann study
    Y. Mitsuyama, T. Takaki, S. Sakane, Y. Shibuta, M. Ohno
    Acta Materialia, Vol. 188, 2020/04, 282-287. (Science Direct)

  32. Large-scale phase-field lattice Boltzmann study on the effects of natural convection on dendrite morphology formed during directional solidification of a binary alloy
    T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki
    Computational Materials Science, Vol. 171, 2020/01, 109209. (Science Direct)

  33. Infomation more than 5 years ago↓
    2019
  34. 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
    S. Sakane, T. Takaki, M. Ohno, Y. Shibuta, T. Aoki
    Modelling and Simulation in Materials Science and Engineering, 2019/05, 054004. (IOP)

  35. Competitive growth during directional solidification of a binary alloy with natural convection: two-dimensional phase-field study
    T. Takaki, S. Sakane, M. Ohno, Y. Shibuta
    Modelling and Simulation in Materials Science and Engineering, Vol. 27, 2019/05, 054001. (IOP)

  36. Micrometer-scale molecular dynamics simulation of microstructure formation linked with multi-phase-field simulation in same space scale
    Y. Shibuta, S. Sakane, E. Miyoshi, T. Takaki, M. Ohno
    Modelling and Simulation in Materials Science and Engineering, Vol. 27, 2019/05, 054002. (IOP : Open Access)

  37. Large-scale phase-field simulation of three-dimensional isotropic grain growth in polycrystalline thin films
    E. Miyoshi, T. Takaki, M. Ohno, Y. Shibuta, S. Sakane, T. Aoki
    Modelling and Simulation in Materials Science and Engineering, Vol. 27, 2019/05, 054003. (IOP)

  38. Simulation method based on phase-field lattice Boltzmann model for long-distance sedimentation of single equiaxed dendrite
    S. Sakane, T. Takaki, M. Ohno, Y. Shibuta
    Computational Materials Science, Vol. 164, 2019/06, 39-45. (Science Direct)

  39. A parametric study of morphology selection in equiaxed dendritic solidification
    G. Kim, T. Takaki, Y. Shibuta, S. Sakane, K. Matsuura, M. Ohno
    Computational Materials Science, Vol. 162, 2019/05, 76-81. (Science Direct)

  40. Permeability prediction for flow normal to columnar solidification structures by large-scale simulations of phase-field and lattice Boltzmann methods
    T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki
    Acta Materialia, Vol. 164, 2019/02, 237-249. (Science Direct)

  41. 2018
  42. Correlation between three-dimensional and cross-sectional characteristics of ideal grain growth: large-scale phase-field simulation study
    E. Miyoshi, T. Takaki, M. Ohno, Y. Shibuta, S. Sakane, T. Shimokawabe, T. Aoki
    Journal of Materials Science, Vol. 53, 2018/11, 15165-15180. (Springer)

  43. Competitive grain growth during directional solidification of a polycrystalline binary alloy: Three-dimensional large-scale phase-field study
    T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Aoki, C.-A. Gandin
    Materialia, Vol. 1, 2018/09, 104-113. (Science Direct)

  44. Grain growth kinetics in submicrometer-scale molecular dynamics simulation
    S. Okita, E. Miyoshi, S. Sakane, T. Takaki, M. Ohno, Y. Shibuta
    Acta Materialia, Vol. 153, 2018/07, 108-116. (Science Direct)

  45. Three-dimensional morphologies of inclined equiaxed dendrites growing under forced convection by phase-field-lattice Boltzmann method
    S. Sakane, T. Takaki, M. Ohno, Y. Shibuta, T. Shimokawabe, T. Aoki
    Journal of Crystal Growth, Vol. 483, 2018/02, 147-155. (Science Direct)

  46. 2017
  47. Multi-GPUs parallel computation of dendrite growth in forced convection using the phase-field-lattice Boltzmann model
    S. Sakane, T. Takaki, R. Rojas, M. Ohno, Y. Shibuta, T. Shimokawabe, T. Aoki
    Journal of Crystal Growth, Vol. 474, 2017/09, 154-159. (Science Direct)

  48. Phase-field-lattice Boltzmann studies for dendritic growth with natural convection
    T. Takaki, R. Rojas, S. Sakane, M. Ohno, Y. Shibuta, T. Shimokawabe, T. Aoki
    Journal of Crystal Growth, Vol. 474, 2017/09, 146-153. (Science Direct)

  49. Molecular dynamics simulations investigating consecutive nucleation, solidification and grain growth in a twelve-million-atom Fe-system
    S. Okita, W. Verestek, S. Sakane, T. Takaki, M. Ohno, Y. Shibuta
    Journal of Crystal Growth, Vol. 474, 2017/09, 140-145. (Science Direct)

  50. Ultra-large-scale phase-field simulation study of ideal grain growth
    E. Miyoshi, T. Takaki, M. Ohno, Y. Shibuta, S. Sakane, T. Shimokawabe, T. Aoki
    npj Computational Materials, 3, 25, 2017/07, 1-6. (Nature.com)

  51. Heterogeneity in homogeneous nucleation from billion-atom molecular dynamics simulation of solidification of pure metal
    Y. Shibuta, S. Sakane, E. Miyoshi, S. Okita, T. Takaki, M. Ohno
    Nature Communications, 8, 2017/04, 1-9. (Nature.com)

  52. 2016
  53. Primary arm array during directional solidification of a single-crystal binary alloy: Large-scale phase-field study
    T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Shimokawabe, T. Aoki
    Acta Materialia, Vol. 118, 2016/10, 230-243. (Science Direct : Open Access)

  54. Large-scale phase-field studies of three-dimensional dendrite competitive growth at the converging grain boundary during directional solidification of a bicrystal binary alloy
    T. Takaki, S. Sakane, M. Ohno, Y. Shibuta, T. Shimokawabe, T. Aoki
    ISIJ International, Vol. 56, 2016/08, 1427-1435. (J-Stage)

  55. Two-dimensional phase-field study of competitive grain growth during directional solidification of polycrystalline binary alloy
    T. Takaki, M. Ohno, Y. Shibuta, S. Sakane, T. Shimokawabe, T. Aoki
    Journal of Crystal Growth, Vol. 442, 2016/05, 14-24. (Science Direct)

  56. Submicrometer-scale molecular dynamics simulation of nucleation and solidification from undercooled melt: Linkage between empirical interpretation and atomistic nature
    Y. Shibuta, S. Sakane, T. Takaki, M. Ohno
    Acta Materialia, Vol.105, 2016/02, 328-337. (Science Direct)

  57. 2015
  58. GPU-accelerated 3D phase-field simulations of dendrite competitive growth during directional solidification of binary alloy
    S. Sakane, T. Takaki, M. Ohno, T. Shimokawabe, T. Aoki
    Materials Science and Engineering, Vol. 84, 2015/06, 012063. (IOP)