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2014年度发表论文 点击下载

 

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1. H. F. Xuan, Q. Y. Wang, S. L. Bai, Z. D. Liu, H. G. Sun and P. C. Yan, A study on microstructure and flame erosion mechanism of a graded Ni–Cr–B–Si coating prepared by laser cladding, Surface & Coatings Technology,(2014), 244: 203–209


2. Q. Y. Wang, S. L. Bai and Z. D. Liu, Corrosion behavior of Hastelloy C22 coating produced by laser cladding in static and cavitation acid solution, Trans. Nonferrous Met. Soc. China,(2014), 24:1610−1618


3. Q. Y. Wang, S. L. Bai and Z. D. Liu, Surface Characterization and Erosion–Corrosion Behavior of Q235 Steel in Dynamic Flow, Tribol Lett, (2014), 53:271–279


4. Q. Y. Wang, S. L. Bai and Z. D. Liu, Study on Cavitation Erosion–Corrosion Behavior of Mild Steel under Synergistic Vibration Generated by Ultrasonic Excitation, Tribology Transactions,(2014), 57:4, 603-612


5. Q. Y. Wang, S. L. Bai and Z. D. Liu, Improvement of Ni-Cr-Mo coating performance by laser cladding combined re-melting, Applied Surface Science, (2014), Vol. 308, 285-292


6. Q. Y. Wang, S. L. Bai and Z. D. Liu, Effect of mechanical polishing on corrosion behavior of Hastelloy C22 coating prepared by high power diode laser cladding, Applied Surface Science, (2014), Vol.303, 312-318


7. Q. Y. Wang, Y. H. Zhao, Z. K. Wu and S. L. Bai, Exploring corrosion behavior of polymer-based 3D graphene/nickel foam composites, Chemistry Letters, (2014), 43:1653-1655


8. X. F. Zhao, Robert K.Y. Li and S. L. Bai, Mechanical Properties of Sisal Fiber Reinforced High Density Polyethylene Composites: Effect of Fiber Content, Interfacial Compatibilization, and Manufacturing Process, Composites Part A: Applied Science and Manufacturing, (2014), 65:169–174


9. S. L. Bai and Y. H. Zhao, Thermal properties and characterization techniques ofgraphene, Advances in Mechanics, (2014), 44: 201406 (In Chinese)


10. S. Y. Meng, X. H. Chen, S. N. Ning, J. M. Wen and L. B. Fu, Instability, adiabaticity and controlling effects of external fields for the dark state in a heteronuclear atom–tetramer conversion system, J. Phys. B: At. Mol. Opt. Phys.(2014), 47:185303


11. F. Q. Dou, L. B. Fu and J. Liu, High-fidelity fast quantum driving in nonlinear systems, Physical Review A,(2014), 89:012123


12. H. Cao, Q. Wang and L. B. Fu, Interaction effects in a quantum simulation of classical magnetism with artificial gauge potential, Physical Review A,(2014), 89:013610


13. S. C. Li, L. B. Fu and J. Liu, Virtual monopoles in a bosonic atom–diatomic-molecule system, Physical Review A,(2014), 89:023628


14. W. L. Zhao, L. B. Fu and J. Liu, Nonlinearity effects on the directed momentum current, Physical Review E, (2014), 90:022907


15. Y. Q. Liu, L. B. Fu, D. F. Ye, J. Liu, et.al, Strong-Field Double Ionization through Sequential Release from Double Excitation with Subsequent Coulomb Scattering, Physical Review Letters, (2014), 112: 013003


16. X. F. Sun, M. Li, D. F. Ye, G. G. Xin, L. B. Fu, X. G. Xie, Y. K. Deng, C. Y. Wu, J. Liu, et.al, Mechanisms of Strong-Field Double Ionization of Xe, Physical Review Letters, (2014), 113: 103001


17. Y. Lv, Y. H. Xue, Y. P. Shi, H. Lin and H. L. Duan, Metastable States and Wetting Transition of Submerged Superhydrophobic Structures, Physical Review Letters, (2014), Vol.112, No. 19, pp. 196101


18. Y. H. Xue, H. J. Yuan, W. D. Su, Y. P. Shi and H. L. Duan, Enhanced load-carrying capacity of hairy surfaces floating on water, Proceedings of the Royal Society A, (2014), Vol. 470, No. 2165, pp. 20130832

19. Y. J. Liu, P. Y. Liu, J. Ma, R. B. Bai and H. L. Duan, Stress fields in hollow core-shell spherical electrodes of lithium ion batteries, Proceedings of the Royal Society A, (2014), Vol. 470, No. 2172, pp. 20140299


20. M. Lanza, Y. Wang, H. Sun, Y. Z. Tong and H. L. Duan, Morphology and performance of graphene layers on as-grown and transferered substrates, Acta Mechanica, (2014), Vol. 225, No.4-5, pp. 1061-1073


21. Y. Wu, Y. H. Xue, X. W. Pei, M. R. Cai, H. L. Duan, et.al, Adhesion-Regulated Switchable Fluid Slippage on Superhydrophobic Surfaces,Journal of Physical Chemistry C, (2014), Vol. 118, No. 5, pp. 2564-2569


22. N. Li, J. M. Xue, J. X. Wang and H. L. Duan, Mechanical properities of self-irradiated single crystal copper, Chinese Physics B, (2014), Vol. 23, No. 3, pp. 036101


23. Z. Xiao, D. K. Song, J. M. Xue, H. J. Chu and H. L. Duan, A size-dependent tensorial plasticity model for FCC single crystal with irradiation, International Journal of Plasticity, (2015,online in 2014), Vol. 65, pp. 152-167


24. F. Hui, Y. Y. Shi, Y. F. Ji, M. Lanza and H. L. Duan, Mechanical properties of locally oxidized graphene electrodes, Archive of Applied Mechanics, (2014),DOI: 10.1007/s00419-014-0957-4


25. D. K. Song, X. G. Li, J. M. Xue, H. L. Duan and Z. H. Jin, Irradiation-enhanced twin boundary migration in BCC Fe. Philosophical Magazine Letters, (2014), Vol. 94, No. 6, pp. 361-369


26. D. D. Li, S. C. Li, Y. H. Xue, Y. T. Yang, W. D. Su, Z. H. Xia, Y. P. Shi, H. Lin and H. L. Duan, The effect of slip distribution on flow past a circular cylinder, Journal of Fluids and Structures, (2014), Vol. 51, pp. 211-224


27. M. Lanza, M. Reguant, G. Zou, P. Lv, H. Li, R. Chin, H. Liang, D. Yu, Y. Zhang, Z. Liu and H. L. Duan, High Performance Piezoelectric Nanogenerators Using Two-Dimensional Flexible Top Electrodes, Advanced Materials Interfaces, (2014), Vol. 1, No. 5, pp. 1300101


28. S. J. Zhao, W. Kang and J. M. Xue, Manipulation of electronic and magnetic properties of M2C (M5 Hf, Nb, Sc, Ta, Ti, V, Zr) monolayer by applying mechanical strains, Applied Physics Letters, (2014), 104: 133106


29. S. J. Zhao, J. M. Xue and W. Kang, Gas adsorption on MoS2 monolayer from first-principles calculations, Chemical Physics Letters, (2014), 595–596, 35–42


30. N. Zhang, P. Zhang, W. Kang, et.al, Parameterizing the Morse potential for coarse-grained modeling of blood plasma, Journal of Computational Physics,(2014), 257726–736


31. T. Sun, J. X. Wang and W. Kang, Ubiquitous thermal rectification induced by non-diffusive weak scattering at low temperature in one-dimensional materials: Revealed with a non-reflective heat reservoir, EPL, (2014), 105: 16004


32. T. Sun, J. X. Wang and W. Kang, Heat transfer in heterogeneous nanostructures can be described by a simple chain model, Phys.Chem.Chem.Phys.,(2014), 16: 16914


33. S. J. Zhao, W. Kang and J. M. Xue, Role of Strain and Concentration on the Li Adsorption and Diffusion Properties on Ti2C Layer, J. Phys. Chem. C, (2014), 118: 14983−14990


34. Y. Long and J. Chen,A molecular dynamics study of the early-time mechanical heating in shock-loaded octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine-based explosives,Journal of Applied Physics, (2014), 116: 033516


35. Y. Xu, J. Chen and H. Li,Finite hyperelastic–plastic constitutive equations for atomistic simulation of dynamic ductile fracture, International Journal of Plasticity, (2014), 59: 15-29


36. R. Su, M. Z, Xiang, J. Chen, S. L. Jiang and W. Han, Molecular dynamics simulation of shock induced ejection on fused silica surface, Journal of Applied Physics, (2014), 115: 193508


37. Y. Long and J. Chen, Theoretical study of phonon density of states, thermodynamic properties and phase transitions for HMX, Philosophical Magazine, (2014), 94(23): 2656-2677


38. Y. Liao, M. Z. Xiang, X. G. Zeng and J. Chen, Molecular dynamics study of the micro-spallation of single crystal Tin, Computational Material Science, (2014), 95: 89-98


39. Y. Bao and J. J. Tao, Dynamic reactions of a free-pitching foil to the reverse Kármán vortices, Physics of Fluids (1994-present), (2014), 26: 031704


40. K. Wang, D. F. Li, H. T. Liu, X. Y. Han, B. Duan, C. Y. Li, J. G. Li, X. L. Guo, C. Y. Chen, and J. Yan, Systematic calculations of energy levels and transition rate of C-like ions with Z = 13–36, The Astrophysical Journal Supplement Series, (2014), 215:26


41. S. Q. Tang and S. S. Ji, Stability of Atomic Simulations withMatching Boundary Conditions, Adv. Appl. Math. Mech., (2014), Vol. 6, No. 5, pp. 539-551


42. S. Q. Tang and E. G. Karpov, Artificial boundary conditions for Euler–Bernoulli beam equation, Acta Mechanica Sinica, (2014), 30(5):687–692


43. S. H. Zhang, Y. W. Li, T. S. Zhao and Q. Wang, Robust ferromagnetism in monolayer chromium nitride, Scientific Reports, (2014), 4: 5241


44. Y. G. Guo, S. H. Zhang and Q. Wang, Electronic and Optical Properties of Silicon based Porous sheets, Phys. Chem. Chem. Phys.,(2014), 16: 16832-16836


45. T. S. Zhao, S. H. Zhang, Q. Wang et.al, Tuning Electronic and Magnetic Properties of Silicene with Magnetic Superhalogens, Phys. Chem. Chem. Phys., (2014), 16: 22915-23494


46. H. M. Zhao, X. Lin, Y. W. Li, Q. Wang and P .Jena, Structural, electronic and magnetic properties of neutral and anionic Fe2(BO2)n (n=1~3) clusters, Physics Letters A,(2014), 378: 2959-2964


47. K. R. O’Neal, T. V. Brinzari, J. B. Wright, C. L. Ma, S. Giri, J. A. Schlueter, Q. Wang, et.al, Pressure-induced magnetic crossover driven by hydrogen bonding in CuF2(H2O)2(3-chloropyridine), Scientific Reports.(2014) 4: 6054


48. K. Tao, J. Zhou, Q. Sun, Q. Wang, et.al, Self-consistent determination of Hubbard U for explaining the anomalous magnetism of the Gd13 cluster, Phys. Rev. B, (2014), 89: 085103


49. J. Zhou, Q. Sun, Q. Wang and P. Jena, Tailoring Li adsorption on graphene, Phys. Rev. B, (2014), 90: 205427


50. G. Z. Zhu, Y. W. Li, K. Lv and Q. Sun, Phthalocyanine-Based Organometallic Nanocages: Properties and Gas Storage, ChemPhysChem, (2014), 15: 126-131


51. G. Z. Zhu, M. Kan, Q. Sun and P. Jena, Anisotropic Mo2−Phthalocyanine Sheet: A New Member of the Organometallic Family, J. Phys. Chem. A, (2014), 118: 304−307


52. M. Kan, J. Y. Wang, X. W. Li, S. H. Zhang, Y. W. Li, Y. Kawazoe, Q. Sun and P. Jena, Structures and Phase Transition of a MoS2 Monolayer, J. Phys. Chem. C, (2014), 118: 1515−1522


53. J. Zhou and Q. Sun, Carrier induced magnetic coupling transitions in phthalocyanine-based organometallic sheet, Nanoscale, (2014), 6: 328–333


54. J. B. Yu, Q. Sun, Y. Kawazoed and P. Jena, Stability and properties of 2D porous nanosheets based on tetraoxa[8]circulene analogues, Nanoscale, (2014), 6: 14962


55. M. Kan, S. Adhikarib and Q. Sun, Ferromagnetism in MnX2 (X = S, Se) monolayers, Phys.Chem.Chem.Phys.,(2014), 16: 4990
56. Y. W. Li and Q. Sun, The superior catalytic CO oxidation capacity of a Cr-phthalocyanine porous sheet, Scientific Reports, (2014), 4: 4098


57. M. Kan, B. Wang, Y. H. Lee and Q. Sun, A density functional theory study of the tunable structure, magnetism and metal–insulator phase transition in VS2 monolayers induced by in-plane biaxial strain, Nano Research, (2014), 11: 5974


58. C. Z. Xiao, Z. J. Liu, T. W. Huang, C. Y. Zheng, B. Qiao and X. T. He, Research on ponderomotive driven Vlasov–Poisson system in electron acoustic wave parametric region, Physics of Plasmas (1994-present), (2014), 21: 032107


59. L. Hao, Y. Q. Zhao, D. Yang, Z. J. Liu, X. Y. Hu, C. Y. Zheng, et.al, Analysis of stimulated Raman backscatter and stimulated Brillouin backscatter in experiments performed on SG-III prototype facility with a spectral analysis code, Physics of Plasmas (1994-present),(2014), 21: 072705


60. D. Wu, C. Y. Zheng, B. Qiao, C. T. Zhou, X. Q. Yan, M. Y. Yu and X. T. He,Suppression of transverse ablative Rayleigh-Taylor-like instability in the hole-boring radiation pressure acceleration by using elliptically polarized laser pulses, Physical Review E, (2014), 90: 023101


61. K. Lan, J. Liu, D. X. Lai, W. D. Zheng and X. T. He, High flux symmetry of the spherical hohlraum with octahedral 6LEHs at the hohlraumto-capsule radius ratio of 5.14, Physics of Plasmas (1994-present), (2014), 21: 010704


62. K. Lan, X. T. He, J. Liu, W. D. Zheng and D. X. Lai, Octahedral spherical hohlraum and its laser arrangement for inertial fusion, Physics of Plasmas (1994-present), (2014), 21: 052704


63. K. Lan and W. D. Zheng, Novel spherical hohlraum with cylindrical laser entrance holes and shields,Physics of Plasmas (1994-present), (2014), 21: 090704


64. W. Y. Huo, J. Liu, Y. Q. Zhao, W. D. Zheng and K. Lan, Insensitivity of the octahedral spherical hohlraum to power imbalance, pointing accuracy, and assemblage accuracy, Physics of Plasmas (1994-present), (2014), 21: 114503


65. Z. J. Shen, W. Yan, and G. W. Yuan, A Stability Analysis of Hybrid Schemes to Cure Shock Instability, Commun.Comput. Phys., (2014),15(5): 1320-1342

 

66. Z. J. Shen, W. Yan and G. W. Yuan, A robust and contact resolving Riemann solver on unstructured mesh, Part I, Euler method, J. Comput. Phys.,(2014), 268:432-455


67. Z. J. Shen, W. Yan, and G. W. Yuan, A robust and contact resolving Riemann solver on unstructured mesh, Part II, ALE method, J. Comput. Phys.,(2014), 268: 456-484


68. J. B. Wua, H. Zheng, Parallel subspace correction methods for nearly singular systems, Journal of Computational and Applied Mathematics, (2014), 271: 180–194


69. W. P. Yao, B. W. Li, L. H. Cao, F. L. Zheng, T. W. Huang, C. Z. Xiao and M. M. Skoric, Generation of monoenergetic proton beams by a combined scheme with an overdense hydrocarbon target and an underdense plasma gas irradiated by ultra-intense laser pulse, Laser Part. Beams,(2014), 30: 553-558


70. L. H. Cao, H. Huan, H. Zhang, Z. J. Liu, et. al, Two-Dimensional Hybrid Model for High-Current Electron Beam Transport in a Dense Plasma, Plasma Sci. Tech., (2014), 16(11): 1007


71. H. Wang, L. H. Cao, Z. Q. Zhao, M. Y. Yu, Y. Q. Gu and X. T. He, Effect of inner-surface roughness of conical target on laser absorption and fast electron generation, Chinese Phys. B, (2014), 23: 055202


72. T. W. Huang, C. T. Zhou and X. T. He, Pattern dynamics and filamentation of relativistic laser pulses propagating in underdense plasmas, SCIENTIA SINICA Physica, Mechanica & Astronomica, (2014), 44:12 (In Chinese)


73. S. Z. Wu, H. Zhang, C. T. Zhou, S. P. Zhu and X. T. He, Relativistic Vlasov code development for high energy density plasmas, Eur. Phys. J. D, (2014), 68: 208


74. J. Zhao, P. He and H. Z. Tang, Steger-Warming flux vector splitting method for special relativistic hydrodynamics, Math. Meth. Appl. Sci.,(2014), 37: 1003–1018.


75. K. L. Wu, Z. C. Yang and H. Z. Tang, A third-order accurate direct Eulerian GRP scheme for one-dimensional relativistic hydrodynamics, East Asian Journal on Applied Mathematics,(2014), 4:95-131

 

76. K. L. Wu, Z. C. Yang and H. Z. Tang, A third-order accurate direct Eulerian GRP scheme for the Euler equations in gas dynamics, J. Comput. Phys., (2014), 264: 177–208


77. N. Liu and H. Z. Tang, A high-order accurate gas-kinetic scheme for one- and two-dimensional flow simulation, Commun. Comput. Phys., (2014), 15: 911-943


78. H. M. Lin, H. Z. Tang and W. Cai, Accuracy and efficiency in computing electrostatic potential for an ion-channel model in layered dielectric media, J. Comput. Phys., (2014), 259: 488-512


79. K. L. Wu and H. Z. Tang, Finite volume local evolution Galerkin method for two-dimensional special relativistic hydrodynamics, J. Comput. Phys.,(2014), 256: 277-307


80. H. D. Liu and L. B. Fu, Representation of Berry Phase by the Trajectories of Majorana Stars, Physical Review Letters, (2014), 113: 240403

 

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