研究業績(論文等)

1. 北川　浩・小西晴之・中谷彰宏, ``結晶構造体に対する計算力学モデル の検討([I], 結晶すべりモデルを用いる延性き裂の開口挙動の解析)'', 日本 機械学会論文集 A編, 57巻, 541号, (1990), pp.1986-1991.

2. Hiroshi Kitagawa and Akihiro Nakatani, ``Crystal Plasticity Model and Molecular Dynamics (Numerical Simulation of Plane Strain Inhomogeneous Deformation)'', Constitutive Relations for Finite Deformation of Polycrystalline Metals (ed. by R.Wang and D.C.Drucker), (1992), pp.220 - 233, Springer Verlag.

3. Hiroshi Kitagawa and Akihiro Nakatani, ``Microstructural Aspects of Crack Extension in a Crystalline Material (A Molecular Dynamic Study)'', Mechanical Behaviour of Materials - VI (ed. by M.Jono and T.Inoue), (1991), pp.111 - 116, Pergamon Press.

4. 北川　浩・中谷彰宏, ``結晶構造体に対する計算力学モデルの検討 ([II], 面外せん断荷重下のき裂先端の微視的変形場の分子動力学シミュレー ション)'', 日本機械学会論文集 A編, 59巻, 557号 (1993), pp.256-262.

5. Hiroshi Kitagawa, Akihiro Nakatani, and Yoji Shibutani, ``Molecular Dynamics Study of Crack Initiation'', Proceedings of International Seminar on Microstructures and Mechanical Properties of New Engineering Materials (IMMM'93), (ed. by M.Tokuda and M.Senoo), Mie University, 3 - 5, August, 1993, (1993), pp.19 - 26, Mie Academic Press.

6. 北川　浩・中谷彰宏・渋谷陽二, ``結晶構造体に対する計算力学モデル の検討([III], モードIIき裂先端場の原子構造の解析)'', 日本機械学会論文 集 A編, 59巻, 564号, (1993), pp.1834 - 1841.

7. 渋谷陽二・北川　浩・中谷彰宏, ``イオン照射層に生じる固有応力の評 価'', 日本機械学会論文集 A編, 59巻, 564号, (1993), pp.1971 - 1977.

8. Hiroshi Kitagawa, Akihiro Nakatani, and Yoji Shibutani, ``Molecular Dynamics Study of Crack Processes Associated with Dislocation Nucleated at the Tip'', Materials Science and Engineering, A176(1994), pp.263 - 269.

9. Hiroshi Kitagawa and Akihiro Nakatani, ``Computational Modelling for Materials with Crystalline Structure (Molecular Dynamic Simulation of Microscopic Crack Tip Field under Antiplane Shear Loading)'', JSME International Journal, Series A, Vol.38, No.1, (1995), pp.1 - 8. (original: Transaction of the Japan Society of Mechanical Engineers, Ser. A, Vol.59, No.557, (1993), pp.256-262 (in Japanese)).

10. Akihiro Nakatani, Hiroshi Kitagawa, Yoji Shibutani, and Keiko Nakatani, ``Molecular Dynamics Study on Ductile Crack Process (Effect of Temperature on Dislocation Nucleation)'', Material Science Research International, Vol.1, No.1 (1995), pp.11-16.

11. Hiroshi Kitagawa, Akihiro Nakatani, and Yoji Shibutani, ``Dislocation Nucleation from a Crack-Tip under In-Plane Shear (Molecular Dynamics Study of Influence of Kink of Crack Front and Dislocation Line)'', Acta Mechanica Solida Sinica, Vol.8, S.Issue, (1995), pp.53-57.

12. Ken-ichi Saitoh, Hiroshi Kitagawa, Yoji Shibutani, and Akihiro Nakatani, ``Dynamic Rearrangement in Atomic Structure Induced by Interaction between Grain Boundary and Vacancy'', Dynamic Plasticity and Structural Behaviors, Proceedings of Plasticity'95, (1995), pp.309-312.

13. 北川　浩・中谷彰宏・小西晴之・宇治田寧, ``ケイ素鋼薄板に生じる不 均質変形(結晶すべり理論による bcc 単結晶体の解析)'', 日本機械学会論文 集 A編, 61巻, 590号(1995-10), pp.2259-2263.

14. 中谷敬子・北川　浩・中谷彰宏, ``分子動力学法による単元系アモルファ ス金属の微視的空間構造と内部応力の評価'', 日本機械学会論文集 A編, 62巻, 595 号(1996), pp.847-852.

15. 北川　浩・中谷彰宏・尾方成信・齋藤賢一・前川幸弘, ``Al粒界近傍の ストレスマイグレーションの分子動力学解析'', 日本機械学会論文集 A編, 62 巻, 595 号(1996), pp.853-858.

16. 北川　浩・中谷彰宏・尾方成信・齋藤賢一・前川幸弘, ``Al粒界近傍の 原子拡散特性(有効媒質理論に基づく分子動力学解析)'', 日本機械学会論文集, A編, 62巻, 602号, (1996), pp.2358-2363.

17. Hiroshi Kitagawa, Akihiro Nakatani, Shigenobu Ogata, Ken-ichi Saitoh, and Yukihiro Maegawa, ``Molecular Dynamics Study of Stress-Induced Migration near Al Grain Boundary'', JSME International Journal, Series A, Vol.40, No.3, (1997), pp.203 - 210. (original: Transaction of the Japan Society of Mechanical Engineers, Ser. A, Vol.62, No.595, (1996), pp.853-858 (in Japanese)).

18. 北川　浩・中谷彰宏・小西晴之, ``純アルミ双結晶に生じる多重すべり 解析(潜在硬化挙動に対する力学モデルの検討)'', 日本機械学会論文集, A 編, 62巻, 604号(1996), pp.2784-2790.

19. 齋藤賢一・北川　浩・中谷彰宏・尾方成信, ``分子動力学法による対応 粒界の強度評価'', 材料, 46巻, 3号(1997), pp.238-243.

20. 中谷敬子・北川　浩・中谷彰宏, ``分子動力学法による単元系アモルファ スの力学特性評価--原子構造変化が誘発する弾性定数および強度の低下の検 討--'', 材料, 46巻, 3号(1997), pp.244-249.

21. 中谷彰宏・北川　浩・中谷敬子, ``分子動力学法による離散転位動力学 のためのせん断応力と転位運動速度の関係式の導出'', 材料, 46巻, 6号 (1997), pp.619-624.

22. 中谷彰宏・北川　浩・中谷敬子, ``分子動力学法によるbcc結晶中のモー ドII型き裂先端からの転位の発生と運動'', 材料, 46巻, 6号(1997), pp.625-630.

23. 小西晴之・北川　浩・中谷彰宏・安永繁信, ``f.c.c.多結晶体の平面ひ ずみ圧縮変形下における集合組織発達''，材料，46巻, 7号(1997), pp.880-886.

24. Akihiro Nakatani and Hiroshi Kitagawa, ``Microstructural Aspects of Tensile Deformation in Nano-Crystalline Material -- A Molecular Dynamics Study'', Ed. by Masafumi Senoo, Bingye Xu, Masataka Tokuda, Borut Bundara, ``Mechanical Properties of Advanced Engineering Materials (Proceedings of IMMM'97, The 3rd International Symposium on Microstructures and Mechanical Properties of new Engineering Materials, Mie University, Tsu, Japan, 6 - 8, August, 1997)'', (1997), Mie Academic Press, pp.71-78.

25. Keiko Nakatani, Akihiro Nakatani, and Hiroshi Kitagawa, ``Molecular Dynamics Study on Fracture Mechanism of Fe-Amorphous Metal (J Integral near Mode I Crack Tip) '', Mesoscopic Dynamics of Fracture -- Computational Materials Design -- (Advances in Materials Research), Ed. by Hiroshi Kitagawa, Tomoyasu Aihara Jr., and Yoshiyuki Kawazoe, (1998), Springer, pp.88-98.

26. Akihiro Nakatani, Hiroshi Kitagawa, and Makoto Sugizaki, ``Discrete Dislocation Dynamics Study on Distribution of Dislocations and Stress Field near Crack Tip'', Mesoscopic Dynamics of Fracture -- Computational Materials Design -- (Advances in Materials Research), Ed. by Hiroshi Kitagawa, Tomoyasu Aihara Jr., and Yoshiyuki Kawazoe), (1998), Springer, pp.143-154.

27. 中谷彰宏・北川　浩・西山英俊, ``均質化法を用いたマクロき裂とミク ロき裂群間の弾性相互干渉効果の検討'' , 日本機械学会論文集, A編, 64巻, 628号 (1998-12), 2889-2894.

28. 中谷彰宏・北川　浩・杉崎 誠, ``離散転位動力学法による繰返し荷重 下のき裂先端近傍のメゾ領域に形成される転位構造と破壊機構の検討''，日本 機械学会論文集，A編，65巻，631号 (1999-3)，575-581.

29. 中谷彰宏・北川　浩・下川智嗣, ``複合材料の原子レベル表面創成機構 の分子動力学法による研究''，材料，48巻，4号 (1999-4)，381-386.

30. 中谷彰宏・三宅琢也・北川　浩, ``き裂先端近傍における転位の集団挙 動の離散転位動力学シミュレーションとその可視化''，Computer Visualization Symposium '99 論文集，(1999年6月25日 TEPIAホール) , (1999-6)，41-44.

31. 中谷彰宏・三宅琢也・北川　浩, ``き裂先端近傍における転位の集 団挙動の離散転位動力学シミュレーションとその可視化''， 日経サイエンス，第29巻, 第10号(通巻336号) (1999-10)，122(A16).

32. Akihiro Nakatani, Hiroshi Kitagawa, and Makoto Sugizaki, ``Discrete Dislocation Dynamics Study of Fracture Mechanism and Dislocation Structures formed in Mesoscopic Field near Crack Tip under Cyclic Loading'', JSME International Journal, Series A, Vol.42, No.4 (1999-10), pp.463-471. (original: Transaction of the Japan Society of Mechanical Engineers, Ser. A, Vol.65, No.631, (1999-3), pp.575-581 (in Japanese)).

33. 中谷彰宏・北川　浩・下川智嗣, ``分子動力学法によるナノ多結晶体の 力学特性と引張荷重下における非弾性変形機構の検討'' 日本機械学会論文集， A編，66巻 (2000-3)，pp.435-441.

34. 中谷敬子・中谷彰宏・北川　浩・杉山吉彦，``分子動力学法による非晶 質金属中のき裂成長シミュレーション'', 材料，49巻，3号，(2000-3), pp.275-281.

35. Keiko Nakatani, Akihiro Nakatani, Yoshihiko Sugiyama, and Hiroshi Kitagawa, ``Molecular Dynamics Study on Mechanical Properties and Fracture in Amorphous Metal'', AIAA Journal, Vol.38, No.4, (2000-4), pp.695-701.

36. 松本龍介・北川　浩・中谷敬子・中谷彰宏, ``アモルファス金属中を進展する き裂の分子動力学シミュレーション", 日本機械学会論文集A編, 67 巻，653号 (2001年1月), pp.23-29.

37. 下川智嗣・中谷彰宏・北川　浩, ``ナノ多結晶体中の粒界の構造と力学 特性に関する分子動力学法による研究'', 日本機械学会論文集, A編, 68巻， 670号(2002年6月) , pp.858-865.

38. 下川智嗣・中谷彰宏・北川　浩, ``Fccナノ多結晶金属の力学特性の粒 径依存性に関する分子動力学法による研究'', 日本機械学会論文集, A編, 68 巻，676 号(2002年12月)，pp.1708-1715.

39. 松本龍介・中谷彰宏・北川　浩，``アモルファス金属の変形誘起ナノ結 晶化過程の分子動力学シミュレーション''，材料, 52巻，3号，(2003-3)， pp.235-240.

40. 北村隆行・梅野宜崇・辻　長知・中谷彰宏，原子構造体の不安定変形モー ド解析(Aalysis on Instable Deformation Mode of Atomic Structure)， 日本機械学会論文集，A編，第69巻，第681号，(2003-5), 945-951.

41. 松本龍介・中谷彰宏・北川　浩，``アモルファス金属中のき裂開口挙動 の解析(原子モデルと弾粘塑性連続体モデルとの比較)''，日本機械学会論文集, A編, 第69巻，第683号 (2003-7), pp.1074-1081.

42. Akihiro Nakatani, Walter J. Drugan, Erik van der Giessen, and Alan Needleman, ``Crack Tip Fields at a Ductile Single Crystal-Rigid Material Interface'', International Journal of Fracture, Vol.122 (2003), pp.131-159.

43. Jian-Wei Shi, Akihiro Nakatani, and Hiroshi Kitagawa, ``Effects of In-Plane Constraints on the Free Vibration of a Symmetric Laminated Doubly Curved Panel'', Acta Mechanica, Vol.166 (2003), pp.89-102.

44. Jian-Wei Shi, Akihiro Nakatani, and Hiroshi Kitagawa, ``Vibration Analysis of Fully Clamped Arbitrarily Laminated Plate'', Composite Structures, Vol.63 (2004), pp.115-122.

45. Jian-Wei Shi, Akihiro Nakatani and Hiroshi Kitagawa, ``Approximate Vibration Analysis of Laminated Curved Panel Using Higher-Order Shear Deformation Theory'', Acta Mechanica Sinica, Vol.20, No.3 (2004), pp.238-246.

46. Itsuo Hanasaki, Akihiro Nakatani and Hiroshi Kitagawa, ``Molecular dynamics study of Ar flow and He flow inside a carbon nanotube junction as a molecular nozzle and diffuser'', Science and Technology of Advanced Materials, Vol.5, No.1-2 (2004), pp.107-113.

47. Tomotsugu Shimokawa, Akihiro Nakatani and Hiroshi Kitagawa, ``Mechanical Properties Depending on Grain Sizes of Fcc Nanocrystalline Metals by Using Molecular Dynamics Simulation (Investigation of Stacking Fault Energy's Influence)'', JSME International Journal, Series A, Vol.47, No.2 (2004), pp.83-91. (original: Transaction of the Japan Society of Mechanical Engineers, Ser. A, Vol.68, No.676, (2002-12), pp.1708-1715 (in Japanese)).

48. Akihiro Nakatani, Tomotsugu Shimokawa, Ryosuke Matsumoto, and Hiroshi Kitagawa, ``Atomistic Study on Ideal Strength of Nanocrystal and Deformation Induced Nanostructures'', Solid Mechanics and Its Applications Vol.115 (IUTAM Symposium on Mesoscopic Dynamics of Fracture Process and Materials Strength (H. Kitagawa and Y. Shibutani Eds.)), (2004), pp.365-380, Kluwer Academic Publishers.

49. Tomotsugu Shimokawa, Akihiro Nakatani and Hiroshi Kitagawa ``Grain size dependence of the relationship between intergranular and intragranular deformation of nanocrystalline Al by molecular dynamics simulation'', Phys. Rev. B, Vol.71 (2005), 224110(8pages).

50. 下川智嗣・喜成年泰・新宅救徳・中谷彰宏・北川 浩， ``分子動力学法によるナノ多結晶体の変形・局所くびれ解析（ナノ多結晶体の粒 内変形と粒間変形の関係）''，材料, 第54巻，第4号 (2005), pp. 338-406.

51. Ryousuke Matsumoto, Michihiko Nakagaki, Akihiro Nakatani and Hiroshi Kitagawa, ``Molecular-dynamics study on crack growth behavior relevant to crystal nucleation in amorphous metal'', Computer Modeling in Engineering & Sciences (CMES), Vol.9, No.1 (2005-1), pp.75-84.

52. Tomotsugu Shimokawa and Toshiyasu Kinari and Sukenori Shintaku and Akihiro Nakatani and Hiroshi Kitagawa, ``Defect-induced anisotropy in mechanical properties of nanocrystalline metals by molecular dynamics simulations'', Modeling and Simulations in Materials Science and Engineering, Vol.13 (2005-10), pp.1217-1231.

53. Tomotsugu Shimokawa, Toshiyasu Kinari, Sukenori Shintaku, Akihiro Nakatani and Hiroshi Kitagawa, ``Temperature Dependence of a Grain Size of the Maximum Strength of Nanocrystalline Metals by Molecular Dynamics Simulation'', Dislocations, Plasticity, Damage and Metal Forming: Material Response and Multiscale Modeling (Eds. Akhtar S. Khan, Amir Khoei), (2005), Neat Press, pp. 454-456.

54. Itsuo Hanasaki and Akihiro Nakatani, ``Microscopic Structure of Water Flow through Carbon Nanotubes'', Materials Science Forum, Vol.512 (2006), pp.399-404.

55. Itsuo Hanasaki and Akihiro Nakatani, ``Flow structure of water in carbon nanotubes: Poiseuille or plug-like?'', Journal of Chemical Physics, Vol.124(2006-4-13), p.144708(1-9). (Virtual Journal of Biological Physics Research - April 15, 2006 Volume 11, Issue 8, *** Virtual Journal of Nanoscale Science & Technology - April 24, 2006 Volume 13, Issue 16)

56. Itsuo Hanasaki and Akihiro Nakatani, ``Hydrogen bond dynamics and microscopic structure of confined water inside carbon nanotubes'', Journal of Chemical Physics, Vol.124(2006-5-5), p.174714(1-9).

57. Itsuo Hanasaki and Akihiro Nakatani, ``Water flow through carbon nanotube junctions as molecular convergent nozzles'', Nanotechnology, Vol.17, No.11 (2006-6-14), pp.2794-2804.

58. Itsuo Hanasaki and Akihiro Nakatani, ``Fluidised piston model for molecular dynamics simulations of hydrodynamic flow'', Modeling and Simulation in Materials Science and Engineering, Vol.14, No. 5 (2006-5), pp.S9-S20.

59. Tomotsugu Shimokawa, Toshiyasu Kinari, Sukenori Shintaku and Akihiro Nakatani, ``Collective grain deformation of nanocrystalline metals by molecular dynamics simulations'', Modeling and Simulation in Materials Science and Engineering, Vol.14, No. 5 (2006-5), pp.S63-S72.

60. Yusuke Doi and Akihiro Nakatani, ``Interaction of intrinsic localized modes with structures in anharmonic lattice systems'', Modeling and Simulation in Materials Science and Engineering, Vol.14, No.5 (2006-5), pp.S85-S94.

61. 土井祐介・山寄　優・中谷彰宏・北村隆行, ``非線形相互作用によるエ ネルギー局在構造（非線形局在モード）と材料の原子・分子スケールでのダイ ナミクスへの応用''，材料, Vol.55, No.7 (2006), pp.700-705.

62. Yusuke Doi and Akihiro Nakatani, ``Structures of discrete breathres in two dimensional Fermi-Pasta-Ulam lattices'', Theoretical and Applied Mechanics Japan, Vol.55 (2006), pp.103-110.

63. Yu Yamayose, Yusuke Kinoshita, Yusuke Doi, Akihiro Nakatani and Takayuki Kitamura, ``Excitation of intrinsic localized modes in a graphene sheet'', Europhysics Letters, Vol.80 (2007), 40008(6pages).

64. Akihiro Nakatani and Tomotsugu Shimokawa, ``Microstructural evolution in crystalline metal induced by plastic deformation-Atomistic study of grainsubdivision in tension, torsion and rolling-'', Solid Mechanics and its Applications, Vol.144 (2007), pp.25-35.

65. Yusuke Kinoshita, Yu Yamayose, Yusuke Doi, Akihiro Nakatani and Takayuki Kitamura, ``Selective excitations of intrinsic localized modes of atomic scales in carbon nanotubes'', Physical Review B, Vol. 77 (2008), 024307(6pages).

66. 政家利彦・土井祐介・中谷彰宏, 分子動力学法によるNi結晶中の水素拡散挙動とその素過程の解析, 材料, Vol. 57, No. 8 (2008), pp. 774-779.

67. Akihiro Nakatani and Asako Sakashita, ``Study on biphasic material model and mechanical analysis of knee joint cartilage'', Journal of Physics: Conference Series, Vol.96, No.1 (2008), 012180(8pages).

68. Yusuke Doi, Kazuyuki Yoshimura and Akihiro Nakatani, Modulational instability of zone boundary mode and band edge modes in nonlinear diatomic lattices, Phys. Rev. E, Vol. 79 (2009), 026603(12pages).