关键词云

成果统计

合作作者[TOP 5]

访问统计


  总访问量
 255

  访问来源
    内部: 1
    外部: 254
    国内: 210
    国外: 45

  年访问量
 99

  访问来源
    内部: 1
    外部: 98
    国内: 85
    国外: 14

  月访问量
 26

  访问来源
    内部: 0
    外部: 26
    国内: 18
    国外: 8

访问量

访问量

1. 液体的fragility及其与玻璃固体力学性能的关联 [1156]
2. Stabilizing to disruptive transition of focal adhesion response to.. [1119]
3. Intrinsic correlation between dilatation and pressure sensitivity .. [1067]
4. Fractals in fracture of bulk metallic glass [997]
5. Smaller Deborah number inducing more serrated plastic flow of meta.. [916]
6. Saffman-Taylor fingering in nanosecond pulse laser ablating bulk m.. [900]
7. Nanoscale periodic corrugation to dimple transition due to "beat" .. [811]
8. Energy Dissipation In Fracture Of Bulk Metallic Glasses Via Inhere.. [770]
9. Intrinsic correlation between fragility and bulk modulus in metall.. [763]
10. Shear-band toughness of bulk metallic glasses [758]
11. 金属正交切削模型研究进展 [745]
12. Short-range-order effects on intrinsic plasticity of metallic glas.. [738]
13. Strain rate-dependent shear band behavior in bulk metallic glasses [735]
14. Failure criterion for metallic glasses [728]
15. Dynamic Fracture Instability Of Tough Bulk Metallic Glass [715]
16. 大块金属玻璃中由热软化和自由体积产生诱导的剪切带行为比较 [714]
17. Comparison Of Shear Banding In Bmgs Due To Thermal-Softening And F.. [706]
18. Cutting AISI 1045 steel at very high speeds [681]
19. How does the initial free volume distribution affect shear band fo.. [675]
20. Initiation and Propagation of Shear Bands in Zr-Based Bulk Metalli.. [666]
21. Metallic glass nanofilms [659]
22. On the origin of shear banding instability in metallic glasses [658]
23. Crack branching instability and directional stability in dynamic f.. [658]
24. Fracture behavior of a Zr-metallic glass under dynamic compression [648]
25. Amorphous alloy reinforced Whipple shield structure [646]
26. How does spallation microdamage nucleate in bulk amorphous alloys .. [645]
27. Frequency-Dependent Focal Adhesion Instability and Cell Reorientat.. [645]
28. Adiabatic Shear Banding Instability in Bulk Metallic Glasses [627]
29. Formation Mechanism Of Lamellar Chips During Machining Of Bulk Met.. [624]
30. Effect of Particle Size on the Formation of Adiabatic Shear Band I.. [609]
31. Strain Rate-Dependent Compressive Deformation Behavior of Nd-Based.. [605]
32. 非晶合金泡沫材料的研究进展 [595]
33. 球型压头下块体金属玻璃“隆起”现象的数值模拟研究 [587]
34. Surface rippling on bulk metallic glass under nanosecond pulse las.. [586]
35. Slip-line field modeling of orthogonal machining pressure sensitiv.. [585]
36. Numerical Study Of Pile-Up In Bulk Metallic Glass During Spherical.. [582]
37. Instability criterion of materials in combined stress states and i.. [579]
38. Prediction Of Shear-Band Thickness In Metallic Glasses [576]
39. Inherent Shear-Dilatation Coexistence In Metallic Glass [574]
40. 非晶合金塑脆断裂转变的控制参数 [573]
41. Concentrated-Mass Cantilever Enhances Multiple Harmonics In Tappin.. [572]
42. 高速切削TiAl6V4温度和切削力动态变化规律研究 [561]
43. A Modified Free Volume Model For Characterizing Of Rate Effect In .. [559]
44. Basic Mechanical Behaviors And Mechanics Of Shear Banding In Bmgs [556]
45. Characterization of Rate-Dependent Loading/Unloading Dynamic Const.. [551]
46. Formation of adiabatic shear band in metal matrix composites [549]
47. On mechanical properties of metallic glass and its liquid vitrific.. [537]
48. 金属基复合材料绝热剪切失稳 [536]
49. Behavior of Multiple Shear Bands in Zr-Based Bulk Metallic Glass [536]
50. Size-dependent inelastic behavior of particle-reinforced metal-mat.. [525]
51. Energy absorption mechanism of open-cell Zr-based bulk metallic gl.. [518]
52. 广义自洽Mori—Tanaka模型及涂层夹杂体复合材料的有效模量 [510]
53. Atomistic Origin Of Rate-Dependent Serrated Plastic Flow In Metall.. [508]
54. 纤维增强金属基复合材料(FRMMCs)剪切破坏机理及强度的概念设计 [506]
55. Material response and failure mechanism of unidirectional metal ma.. [505]
56. 非晶合金多重剪切带协同演化行为 [497]
57. Characterization of Rate-Dependent Shear Behavior of Zr-Based Bulk.. [484]
58. Serrated Plastic Flow in a Zr-Based Bulk Metallic Glass During Nan.. [484]
59. Effect of reinforcing-particle size on the formation of microbands.. [472]
60. Release Behaviour of Shock Loaded LY12 Aluminium Alloy [467]
61. Dynamics Of Adhesion Cluster And Cell Reorientation Under Lateral .. [463]
62. Nonlinear Mechanical Modeling Of Cell Adhesion [450]
63. Experimental investigation of the shear strength of a unidirection.. [447]
64. 颗粒增强金属基复合材料变形强化中的应变梯度效应 [443]
65. Onset of Adiabatic Shear Instability in Strain Gradient Dependent .. [442]
66. Shear Strength Measurements in LY-12 Aluminium Alloy During Shock .. [435]
67. A strain gradient-strengthening law for particle reinforced metal .. [432]
68. 细胞粘附力敏感性的微观力学模型 [432]
69. 材料强化因素对切削过程中尺寸效应的影响 [426]
70. 冲击剪切载荷下SiC_P_6151Al复合材料变形局部化及增强颗粒尺寸效 [415]
71. Stability Of Adhesion Clusters And Cell Reorientation Under Latera.. [413]
72. 冲击剪切载荷下SiC_P/6151Al复合材料变形局部化及增强颗粒尺寸效应 [409]
73. An incremental micromechanical scheme for nonlinear particulate co.. [408]
74. Strain gradient effect on initiation of adiabatic shear localizati.. [404]
75. 凹凸棒增强聚丙烯复合材料断裂韧性和断面分维的相关性 [383]
76. 中国科学家研制出室温超大塑性大块金属玻璃 [370]
77. Strain Gradient Effects on Deformation Strengthening Behavior of P.. [366]
78. SiC_P颗粒增强金属基6151Al复合材料中的增强颗粒尺寸效应 [361]
79. SiC_p/6151Al复合材料的微结构效应 [348]
80. Transverse shear strength of unidirectional carbon fiber reinforce.. [335]
81. 颗粒增强金属基复合材料的尺寸依赖强化律 [298]
82. Explosive boiling of a metallic glass superheated by nanosecond pu.. [267]
83. Cavitation bubble dynamics during pulsed laser ablation of a metal.. [152]
84. 小角X射线散射表征非晶合金纳米尺度结构非均匀 [118]
85. Elastic-plastic modeling of metallic strands and wire ropes under .. [103]
86. Improved J Estimation by GE/EPRI Method for the Thin-Walled Pipes .. [96]
87. 一体化组合飞板及其制造方法 [91]
88. 非晶合金“拉伸转变区”模型 [90]
89. Suppression of Hopf bifurcation in metal cutting by extrusion mach.. [84]
90. 透光材料的撞击面及自由面的质点速度测量系统 [83]
91. Atomic theory of viscoelastic response and memory effects in metal.. [83]
92. Shear band dilatation in amorphous alloys [78]
93. A metallic glass syntactic foam with enhanced energy absorption pe.. [71]
94. 梯度复合Whipple防护结构防护性能的数值仿真研究 [68]
95. Universal structural softening in metallic glasses indicated by bo.. [66]
96. Enhancing surface integrity by high-speed extrusion machining [63]
97. On the instability of chip flow in high-speed machining [58]
98. Understanding ductile-to-brittle transition of metallic glasses fr.. [56]
99. Interaction of nanosecond pulse laser and metallic glass [53]
100. Strain gradient drives shear banding in metallic glasses [51]

下载量

1. 液体的fragility及其与玻璃固体力学性能的关联 [385]
2. 金属正交切削模型研究进展 [263]
3. Smaller Deborah number inducing more serrated plastic flow of meta.. [248]
4. Dynamic Fracture Instability Of Tough Bulk Metallic Glass [235]
5. 非晶合金塑脆断裂转变的控制参数 [213]
6. Intrinsic correlation between fragility and bulk modulus in metall.. [206]
7. Effect of Particle Size on the Formation of Adiabatic Shear Band I.. [203]
8. Adiabatic Shear Banding Instability in Bulk Metallic Glasses [197]
9. Shear-band toughness of bulk metallic glasses [197]
10. On the origin of shear banding instability in metallic glasses [192]
11. Stabilizing to disruptive transition of focal adhesion response to.. [191]
12. Saffman-Taylor fingering in nanosecond pulse laser ablating bulk m.. [189]
13. Fractals in fracture of bulk metallic glass [184]
14. Short-range-order effects on intrinsic plasticity of metallic glas.. [178]
15. Cutting AISI 1045 steel at very high speeds [176]
16. Failure criterion for metallic glasses [175]
17. Initiation and Propagation of Shear Bands in Zr-Based Bulk Metalli.. [173]
18. Intrinsic correlation between dilatation and pressure sensitivity .. [172]
19. Characterization of Rate-Dependent Loading/Unloading Dynamic Const.. [167]
20. Amorphous alloy reinforced Whipple shield structure [167]
21. Energy absorption mechanism of open-cell Zr-based bulk metallic gl.. [165]
22. 金属基复合材料绝热剪切失稳 [164]
23. 颗粒增强金属基复合材料变形强化中的应变梯度效应 [164]
24. Slip-line field modeling of orthogonal machining pressure sensitiv.. [154]
25. Behavior of Multiple Shear Bands in Zr-Based Bulk Metallic Glass [151]
26. How does the initial free volume distribution affect shear band fo.. [151]
27. Metallic glass nanofilms [146]
28. Nanoscale periodic corrugation to dimple transition due to "beat" .. [145]
29. 高速切削TiAl6V4温度和切削力动态变化规律研究 [141]
30. Strain Rate-Dependent Compressive Deformation Behavior of Nd-Based.. [140]
31. Frequency-Dependent Focal Adhesion Instability and Cell Reorientat.. [140]
32. 非晶合金泡沫材料的研究进展 [140]
33. Size-dependent inelastic behavior of particle-reinforced metal-mat.. [136]
34. A strain gradient-strengthening law for particle reinforced metal .. [136]
35. Surface rippling on bulk metallic glass under nanosecond pulse las.. [136]
36. 大块金属玻璃中由热软化和自由体积产生诱导的剪切带行为比较 [135]
37. 冲击剪切载荷下SiC_P/6151Al复合材料变形局部化及增强颗粒尺寸效应 [131]
38. 材料强化因素对切削过程中尺寸效应的影响 [130]
39. Crack branching instability and directional stability in dynamic f.. [128]
40. 广义自洽Mori—Tanaka模型及涂层夹杂体复合材料的有效模量 [127]
41. 非晶合金多重剪切带协同演化行为 [125]
42. Instability criterion of materials in combined stress states and i.. [123]
43. Characterization of Rate-Dependent Shear Behavior of Zr-Based Bulk.. [122]
44. How does spallation microdamage nucleate in bulk amorphous alloys .. [122]
45. An incremental micromechanical scheme for nonlinear particulate co.. [119]
46. Formation of adiabatic shear band in metal matrix composites [118]
47. Formation Mechanism Of Lamellar Chips During Machining Of Bulk Met.. [113]
48. Shear Strength Measurements in LY-12 Aluminium Alloy During Shock .. [112]
49. Numerical Study Of Pile-Up In Bulk Metallic Glass During Spherical.. [109]
50. Basic Mechanical Behaviors And Mechanics Of Shear Banding In Bmgs [108]
51. Concentrated-Mass Cantilever Enhances Multiple Harmonics In Tappin.. [107]
52. Material response and failure mechanism of unidirectional metal ma.. [106]
53. 球型压头下块体金属玻璃“隆起”现象的数值模拟研究 [106]
54. A Modified Free Volume Model For Characterizing Of Rate Effect In .. [105]
55. Atomistic Origin Of Rate-Dependent Serrated Plastic Flow In Metall.. [104]
56. Strain Gradient Effects on Deformation Strengthening Behavior of P.. [103]
57. Effect of reinforcing-particle size on the formation of microbands.. [101]
58. Prediction Of Shear-Band Thickness In Metallic Glasses [101]
59. 凹凸棒增强聚丙烯复合材料断裂韧性和断面分维的相关性 [101]
60. SiC_P颗粒增强金属基6151Al复合材料中的增强颗粒尺寸效应 [101]
61. Energy Dissipation In Fracture Of Bulk Metallic Glasses Via Inhere.. [97]
62. Serrated Plastic Flow in a Zr-Based Bulk Metallic Glass During Nan.. [95]
63. Dynamics Of Adhesion Cluster And Cell Reorientation Under Lateral .. [95]
64. 中国科学家研制出室温超大塑性大块金属玻璃 [87]
65. 冲击剪切载荷下SiC_P_6151Al复合材料变形局部化及增强颗粒尺寸效 [85]
66. Explosive boiling of a metallic glass superheated by nanosecond pu.. [84]
67. Release Behaviour of Shock Loaded LY12 Aluminium Alloy [82]
68. Nonlinear Mechanical Modeling Of Cell Adhesion [82]
69. Experimental investigation of the shear strength of a unidirection.. [79]
70. Comparison Of Shear Banding In Bmgs Due To Thermal-Softening And F.. [79]
71. 细胞粘附力敏感性的微观力学模型 [79]
72. Onset of Adiabatic Shear Instability in Strain Gradient Dependent .. [77]
73. Inherent Shear-Dilatation Coexistence In Metallic Glass [77]
74. Strain rate-dependent shear band behavior in bulk metallic glasses [76]
75. SiC_p/6151Al复合材料的微结构效应 [74]
76. Strain gradient effect on initiation of adiabatic shear localizati.. [73]
77. Transverse shear strength of unidirectional carbon fiber reinforce.. [67]
78. On mechanical properties of metallic glass and its liquid vitrific.. [66]
79. Fracture behavior of a Zr-metallic glass under dynamic compression [63]
80. 颗粒增强金属基复合材料的尺寸依赖强化律 [57]
81. Stability Of Adhesion Clusters And Cell Reorientation Under Latera.. [56]
82. Suppression of Hopf bifurcation in metal cutting by extrusion mach.. [32]
83. 小角X射线散射表征非晶合金纳米尺度结构非均匀 [26]
84. 透光材料的撞击面及自由面的质点速度测量系统 [18]
85. Cavitation bubble dynamics during pulsed laser ablation of a metal.. [18]
86. A metallic glass syntactic foam with enhanced energy absorption pe.. [17]
87. Atomic theory of viscoelastic response and memory effects in metal.. [17]
88. Interaction of nanosecond pulse laser and metallic glass [16]
89. 梯度复合Whipple防护结构防护性能的数值仿真研究 [16]
90. Shear band dilatation in amorphous alloys [14]
91. 非晶合金“拉伸转变区”模型 [14]
92. Enhancing surface integrity by high-speed extrusion machining [13]
93. Understanding ductile-to-brittle transition of metallic glasses fr.. [13]
94. Elastic-plastic modeling of metallic strands and wire ropes under .. [13]
95. 一体化组合飞板及其制造方法 [12]
96. Strain gradient drives shear banding in metallic glasses [11]
97. Characterization of Strain Rate-Dependent Behavior of 63Sn-37Pb So.. [8]
98. Dynamic deformation behavior of a face-centered cubic FeCoNiCrMn h.. [8]
99. Universal structural softening in metallic glasses indicated by bo.. [7]
100. 非晶塑性:从自由体积到剪切转变 [7]