Keywords Cloud

Research Outputs

Co-authors[TOP 5]

Usage Statistics


  Total Views
 1352

  Access Source
    internal: 32
    External: 1320
    Domestic: 959
    Abroad: 393

  Annual Views
 258

  Access Source
    internal: 8
    External: 250
    Domestic: 172
    Abroad: 86

  Monthly Views
 14

  Access Source
    internal: 0
    External: 14
    Domestic: 12
    Abroad: 2

Visits

Visits

1. 含表面梯度强化层的缺口样品疲劳起源寿命数值分析 [5531]
2. Extraordinary strain hardening by gradient structure [1797]
3. Formation of Single and Multiple Deformation Twins in Nanocrystall.. [1664]
4. Deformation twinning in nanocrystalline materials [1468]
5. Dislocation-twin interactions in nanocrystalline fcc metals [1449]
6. Grain size effect on deformation twinning and detwinning [1032]
7. Annealing effect on the evolution of adiabatic shear band under dy.. [1022]
8. Microstructure and Evolution of Mechanically-Induced Ultrafine Gra.. [981]
9. Fe-based thick amorphous-alloy coating by laser cladding [974]
10. Twin boundaries showing very large deviations from the twinning pl.. [944]
11. Twin boundary spacing effects on shock response and spall behavior.. [930]
12. Gamma -> Epsilon Martensite Transformation and Twinning Deformatio.. [853]
13. Strong Strain Hardening in Nanocrystalline Nickel [848]
14. A physical model revealing strong strain hardening in nano-grained.. [832]
15. Deformation twinning in a nanocrystalline hcp Mg alloy [816]
16. Grain Refinement at the Nanoscale Via Mechanical Twinning and Disl.. [796]
17. Twinning partial multiplication at grain boundary in nanocrystalli.. [796]
18. Inverse Grain-Size Effect On Twinning In Nanocrystalline Ni [760]
19. Prevalence Of Shear Banding In Compression Of Zr41Ti14Cu12.5Ni10Be.. [746]
20. Nanocrystalline Formation during Mechanical Attrition of Cobalt [744]
21. Shock response of nanotwinned copper from large-scale molecular dy.. [740]
22. Predictions for Partial-Dislocation-Mediated Processes in Nanocrys.. [739]
23. Accommodation of large plastic strains and defect accumulation in .. [734]
24. Microstructure and mechanical properties at different length scale.. [723]
25. Layer thickness dependent tensile deformation mechanisms in sub-10.. [720]
26. 确定断裂表面晶体学取向的电子背散射衍射方法 [714]
27. 金属基体与涂镀层之间的界面激光强韧化方法 [711]
28. Vacancy clusters in ultrafine grained Al by severe plastic deforma.. [706]
29. New Deformation Twinning Mechanism Generates Zero Macroscopic Stra.. [703]
30. Growth of deformation twins in room-temperature rolled nanocrystal.. [693]
31. 微压痕尺度效应的理论和实验 [687]
32. 梯度纳米结构金属材料力学性能和加工硬化研究 [687]
33. Tensile deformation mechanisms of the hierarchical structure consi.. [685]
34. Work Softening And Annealing Hardening Of Deformed Nanocrystalline.. [684]
35. Size effects of primary/secondary twins on the atomistic deformati.. [680]
36. 具有梯度结构表层301不锈钢的压缩性能 [671]
37. The main factor influencing the tensile properties of surface nano.. [668]
38. Partial-Dislocation-Mediated Processes in Nanocrystalline Ni with .. [662]
39. Analysis of spherical indentation of materials with plastically gr.. [662]
40. Deformation Twinning in Nanocrystalline Ni during Cryogenic Rollin.. [661]
41. Twinning and Stacking Fault Formation during Tensile Deformation o.. [657]
42. Mechanical properties and nanostructures in a duplex stainless ste.. [656]
43. Microstructure of Zr-alloyed coating using pulsed laser [651]
44. In Situ Synthesis Of Nanocrystalline Intermetallic Layer During Su.. [650]
45. Preface to the special issue on ultrafine-grained materials [647]
46. Formation sequences and roles of multiple deformation twins during.. [641]
47. Study on fatigue crack nucleation of electrodeposited nanocrystall.. [640]
48. Torsion fracture behavior of drawn pearlitic steel wires with diff.. [639]
49. Strain-Induced Grain Refinement of Cobalt During Surface Mechanica.. [638]
50. Strong crack blunting by shear-coupled migration of grain boundari.. [631]
51. Evolution of Adiabatic Shear Band in Ultra-Fine-Grained Iron under.. [624]
52. Deformation Twinning Mechanisms in Nanocrystalline Ni [613]
53. Twinning in Nanocrystalline Ni by Severe Plastic Deformation [610]
54. Rapidly solidified nonequilibrium microstructure and phase transfo.. [610]
55. 激光熔覆铁基大厚度非晶合金表层的研究 [609]
56. 含硅钢下贝氏体长大方式:65Si2MnWA下贝氏体界面位错 [608]
57. Phase Transformation Accommodated Plasticity In Nanocrystalline Ni.. [602]
58. Microstructure Evolution and Tensile Properties of 304L Stainless .. [602]
59. Simultaneous improvement of tensile strength and ductility in micr.. [599]
60. Localized Solid-State Amorphization at Grain Boundaries in a Nanoc.. [595]
61. Deformation Twin Formed By Self-Thickening, Cross-Slip Mechanism I.. [595]
62. Fast deposition of diamond-like carbon films by radio frequency ho.. [595]
63. Synthesis of thick Ni66Cr5Mo4Zr6P15B4 amorphous alloy coating and .. [587]
64. 脉冲激光离散熔凝加工的熔池几何形态研究 [583]
65. Plastic Deformation Of Nanocrystalline Nickel [580]
66. Dislocations and twins in nanocrystalline Ni after severe plastic .. [578]
67. Novel Fe70Zr10Ni6Al4Si6B4 thick metallic glass coating produced by.. [576]
68. Nanostructured Metals: Less Is More [575]
69. 钢中贝氏体形核初期微观形貌及精细结构的TEM观察 [573]
70. Partial-mediated slips in nanocrystalline Ni at high strain rate [571]
71. In Situ Synthesis of Nanocrystalline Intermetallic Compound Layer .. [568]
72. W302和 S600热作模具钢激光熔凝及时效处理微观组织和性能研究 [566]
73. Microstructural evolution of a laser-cladded coating [564]
74. 转速对高压扭转Cu试样的组织与性能的影响 [561]
75. Deformation Twinning In Bulk Nanocrystalline Metals: Experimental .. [560]
76. Mechanical Properties and Microstructure of a Duplex Nanostructure [560]
77. Micro-scale Mechanics of the Surface-Nanocrystalline Al-Alloy Mate.. [559]
78. Deformation Defects in Nanocrystalline Nickel [558]
79. In situ formation by laser cladding of a TiC composite coating wit.. [553]
80. 电解沉积纳米镍退火析出相的EBSD分析 [553]
81. Study on nanocrystalline dual phase Ni-Co alloy with high strength.. [553]
82. Influence of processing temperature on microstructure and microhar.. [548]
83. Mechanical Property of Duplex Stainless Steel with Nanostructured .. [542]
84. Dislocations And Twins In Nanocrystalline Ni After Severe Plastic .. [541]
85. Interfacial microstructure and mechanical behaviour in laser clad .. [540]
86. Theoretical and experimental researches of size effect in micro-in.. [533]
87. 脉冲激光合金化形成含非晶相表层的微观组织 [533]
88. 高压扭转铜试样的微观组织与压缩性能 [527]
89. A Study on the Microstructure Characteristic of the Cold-Rolled De.. [525]
90. Atomistic scale fracture behaviours in hierarchically nanotwinned .. [520]
91. Back stress strengthening and strain hardening in gradient structu.. [514]
92. 铁基合金激光熔覆涂层的高温回火组织及其磨损性能 [513]
93. Microstructural evolution and formation of nanocrystalline interme.. [513]
94. 含硅钢下贝氏体生长方式:下贝氏体切变增厚 [505]
95. Enhancing dislocation emission in nanocrystalline materials throug.. [504]
96. Step Structure in Cold-Rolled Deformed Nanocrystalline Nickel [501]
97. 微纳米晶金属的应变率敏感性及应变硬化行为分析 [499]
98. Microstructural features of an iron-based laser coating [497]
99. Microstructure and mechanical properties at TiCp/Ni-alloy interfac.. [497]
100. A modified criterion for shear band formation in bulk metallic gla.. [494]

Downloads

1. Formation of Single and Multiple Deformation Twins in Nanocrystall.. [648]
2. Deformation twinning in nanocrystalline materials [632]
3. Dislocation-twin interactions in nanocrystalline fcc metals [488]
4. Annealing effect on the evolution of adiabatic shear band under dy.. [396]
5. Extraordinary strain hardening by gradient structure [365]
6. Grain size effect on deformation twinning and detwinning [320]
7. Grain Refinement at the Nanoscale Via Mechanical Twinning and Disl.. [285]
8. 含表面梯度强化层的缺口样品疲劳起源寿命数值分析 [285]
9. Twin boundary spacing effects on shock response and spall behavior.. [284]
10. Twinning partial multiplication at grain boundary in nanocrystalli.. [281]
11. Twin boundaries showing very large deviations from the twinning pl.. [275]
12. Microstructure and mechanical properties at different length scale.. [269]
13. Shock response of nanotwinned copper from large-scale molecular dy.. [262]
14. Fe-based thick amorphous-alloy coating by laser cladding [251]
15. Layer thickness dependent tensile deformation mechanisms in sub-10.. [238]
16. 微压痕尺度效应的理论和实验 [233]
17. 激光熔覆铁基大厚度非晶合金表层的研究 [233]
18. Growth of deformation twins in room-temperature rolled nanocrystal.. [233]
19. 确定断裂表面晶体学取向的电子背散射衍射方法 [231]
20. 具有梯度结构表层301不锈钢的压缩性能 [229]
21. Deformation twinning in a nanocrystalline hcp Mg alloy [226]
22. Formation sequences and roles of multiple deformation twins during.. [218]
23. Analysis of spherical indentation of materials with plastically gr.. [210]
24. 含硅钢下贝氏体长大方式:65Si2MnWA下贝氏体界面位错 [209]
25. 梯度纳米结构金属材料力学性能和加工硬化研究 [209]
26. 脉冲激光离散熔凝加工的熔池几何形态研究 [208]
27. Predictions for Partial-Dislocation-Mediated Processes in Nanocrys.. [205]
28. Strong Strain Hardening in Nanocrystalline Nickel [205]
29. Fracture toughness and adhesion of transparent Al:ZnO films deposi.. [204]
30. Twinning and Stacking Fault Formation during Tensile Deformation o.. [202]
31. Atomistic scale fracture behaviours in hierarchically nanotwinned .. [202]
32. 梯度纳米结构铁高应变率变形的力学性能和微观机理研究 [198]
33. 含硅钢下贝氏体生长方式:下贝氏体切变增厚 [189]
34. Micro-scale Mechanics of the Surface-Nanocrystalline Al-Alloy Mate.. [187]
35. New Deformation Twinning Mechanism Generates Zero Macroscopic Stra.. [184]
36. In situ formation by laser cladding of a TiC composite coating wit.. [181]
37. Accommodation of large plastic strains and defect accumulation in .. [181]
38. Preface to the special issue on ultrafine-grained materials [179]
39. Mechanical properties and nanostructures in a duplex stainless ste.. [178]
40. Microstructure of Zr-alloyed coating using pulsed laser [174]
41. Inverse Grain-Size Effect On Twinning In Nanocrystalline Ni [173]
42. Vacancy clusters in ultrafine grained Al by severe plastic deforma.. [173]
43. Microstructural evolution of a laser-cladded coating [172]
44. Nanocrystalline Formation during Mechanical Attrition of Cobalt [169]
45. Fast deposition of diamond-like carbon films by radio frequency ho.. [169]
46. Microstructure and Evolution of Mechanically-Induced Ultrafine Gra.. [166]
47. Partial-Dislocation-Mediated Processes in Nanocrystalline Ni with .. [166]
48. Deformation Twinning Mechanisms in Nanocrystalline Ni [165]
49. The main factor influencing the tensile properties of surface nano.. [164]
50. Strong crack blunting by shear-coupled migration of grain boundari.. [164]
51. Dislocations in Nanocrystalline Grains [163]
52. 薄片贝氏体微观组织形貌及其精细结构 [163]
53. 激光熔凝处理对合金铸铁组织及性能的影响 [162]
54. Study on nanocrystalline dual phase Ni-Co alloy with high strength.. [162]
55. Deformation Defects in Nanocrystalline Nickel [161]
56. The Evolution of Strain Gradient and Anisotropy in Gradient-Struct.. [159]
57. Deformation Twinning in Nanocrystalline Ni during Cryogenic Rollin.. [158]
58. Heterogeneous lamella structure unites ultrafine-grain strength wi.. [158]
59. High-cycle fatigue behavior of pure iron with gradient structures .. [157]
60. Strain-Induced Grain Refinement of Cobalt During Surface Mechanica.. [155]
61. A physical model revealing strong strain hardening in nano-grained.. [155]
62. Gamma -> Epsilon Martensite Transformation and Twinning Deformatio.. [153]
63. 钢中贝氏体形核初期微观形貌及精细结构的TEM观察 [150]
64. Interfacial microstructure and mechanical behaviour in laser clad .. [149]
65. Synthesis of thick Ni66Cr5Mo4Zr6P15B4 amorphous alloy coating and .. [148]
66. Dislocation Propagation versus Dislocation Nucleation - Authors' R.. [147]
67. Size effects of primary/secondary twins on the atomistic deformati.. [147]
68. An energy-equilibrium model for complex stress effect on fatigue c.. [145]
69. 应变诱导晶粒细化与伸长率 [144]
70. Tensile deformation mechanisms of the hierarchical structure consi.. [144]
71. Rapidly solidified nonequilibrium microstructure and phase transfo.. [140]
72. Novel Fe70Zr10Ni6Al4Si6B4 thick metallic glass coating produced by.. [139]
73. Atomistic simulation study on the tensile deformation behaviour of.. [138]
74. Hydrostatic pressure effects on deformation mechanisms of nanocrys.. [138]
75. On nanograin rotation by dislocation climb in nanocrystalline mate.. [138]
76. Theoretical and experimental researches of size effect in micro-in.. [134]
77. 激光熔覆层陶瓷颗粒界面力学行为的数值分析 [133]
78. In Situ Synthesis of Nanocrystalline Intermetallic Compound Layer .. [133]
79. Work Softening And Annealing Hardening Of Deformed Nanocrystalline.. [131]
80. Twinning in Nanocrystalline Ni by Severe Plastic Deformation [128]
81. Microstructure and mechanical properties at TiCp/Ni-alloy interfac.. [128]
82. 转速对高压扭转Cu试样的组织与性能的影响 [128]
83. 铁基合金激光熔覆涂层的高温回火组织及其磨损性能 [127]
84. Phase Transformation Accommodated Plasticity In Nanocrystalline Ni.. [127]
85. Nanostructured Metals: Less Is More [124]
86. Enhancing dislocation emission in nanocrystalline materials throug.. [124]
87. 表面纳米化Zr的拉伸性能 [123]
88. 铁基合金激光熔覆组织及高温时效转变的TEM研究 [123]
89. Study on fatigue crack nucleation of electrodeposited nanocrystall.. [123]
90. 铁基抗高温磨损激光熔覆涂层强韧设计和研究 Ⅱ:Fe-Cr-C-W-Ni激光熔覆层.. [123]
91. In Situ Synthesis Of Nanocrystalline Intermetallic Layer During Su.. [122]
92. 表层梯度硬化材料的接触疲劳模型分析 [122]
93. Nonequilibrium microstructures and their evolution in a Fe-Cr-W-Ni.. [119]
94. Prevalence Of Shear Banding In Compression Of Zr41Ti14Cu12.5Ni10Be.. [119]
95. A modified criterion for shear band formation in bulk metallic gla.. [119]
96. Microstructural features of an iron-based laser coating [117]
97. Dislocations and twins in nanocrystalline Ni after severe plastic .. [116]
98. 铁基抗高温磨损激光熔覆涂层强韧设计和研究Ⅰ:激光熔覆合金成分、微观.. [116]
99. Dissecting the Mechanism of Martensitic Transformation via Atomic-.. [116]
100. Partial-mediated slips in nanocrystalline Ni at high strain rate [115]