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1. Researches on essential mechanics issues for submerged floating tu.. [1767]
2. Influences of Structural Damping and Buoyancy-Weight Ratio on Dyna.. [1660]
3. Effects of inclusion size and stress ratio on fatigue strength for.. [1417]
4. A review of recent studies on vortex-induced vibrations of long sl.. [1335]
5. Two-dimensional Vortex-induced Vibrations of Submerged Floating Tu.. [1285]
6. Microstructure and Evolution of Mechanically-Induced Ultrafine Gra.. [981]
7. Nonlinear dynamics of a submerged floating moored structure by inc.. [979]
8. Fe-based thick amorphous-alloy coating by laser cladding [974]
9. Fractography and Crack Initiation of Very-High-Cycle Fatigue for a.. [897]
10. On the slack phenomena and snap force in tethers of submerged floa.. [886]
11. Gamma -> Epsilon Martensite Transformation and Twinning Deformatio.. [853]
12. Effects of inclusion size and location on very-high-cycle fatigue .. [853]
13. 微米/纳米尺度的材料力学性能测试 [852]
14. Effects of fundamental structure parameters on dynamic responses o.. [850]
15. Effects of strength level and loading frequency on very-high-cycle.. [834]
16. Experimental and theoretical investigation of environmental media .. [829]
17. 辛体系下曲线形水中悬浮隧道对波浪激励的动力响应研究 [810]
18. 纳米晶Ni疲劳行为的实验研究 [800]
19. Investigation of high cycle and Very-High-Cycle Fatigue behaviors .. [797]
20. 大长细比圆柱体顺流向与横向耦合涡激振动的研究 [794]
21. 双轴拉伸应力下后继屈服面的演化研究 [787]
22. A cumulative damage model for fatigue life estimation of high-stre.. [783]
23. GCr15钢超高周疲劳行为的实验研究 [760]
24. Prediction of threshold value for FGA formation [757]
25. Nanocrystalline Formation during Mechanical Attrition of Cobalt [744]
26. 应用力学进展:祝贺郑哲敏先生八十华诞应用力学报告会 [741]
27. Very high cycle fatigue for GCr15 steel with smooth and hole-defec.. [731]
28. 加载频率对金属材料超高周疲劳性能的影响 [727]
29. Effect of Aqueous Environment on High Cycle and Very-High-Cycle Fa.. [721]
30. 确定断裂表面晶体学取向的电子背散射衍射方法 [714]
31. Effect of grain size on collective damage of short cracks and fati.. [707]
32. 材料磨损与MEMS中的磨损现象 [702]
33. Dynamic shell buckling behavior of multi-walled carbon nanotubes e.. [702]
34. Flow-induced vibrations of long circular cylinders modeled by coup.. [692]
35. 基于HR-EBSD的位错动力学行为观测 [691]
36. Fatigue strength and crack initiation mechanism of very-high-cycle.. [674]
37. An experimental investigation of dual-resonant and non-resonant re.. [673]
38. 金属材料超高周疲劳行为的Monte-Carlo模拟 [670]
39. Crack propagation mechanism and life prediction for very-high-cycl.. [666]
40. Deformation Twinning in Nanocrystalline Ni during Cryogenic Rollin.. [661]
41. 确定ZnO颗粒生长方向的电子背散射衍射方法 [652]
42. Microstructure of Zr-alloyed coating using pulsed laser [651]
43. Correlation of Crack Initiation Parameters with Life Estimation fo.. [651]
44. In Situ Synthesis Of Nanocrystalline Intermetallic Layer During Su.. [650]
45. 水中悬浮隧道管段锚索耦合模型涡激振动的研究 [649]
46. Numerical simulation of temperature field evolution of metallic al.. [643]
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. 剪切流中大长细比圆柱体的二维涡激振动 [637]
51. Experimental investigation of Very-High-Cycle Fatigue behavior for.. [635]
52. Dynamic response and structural integrity of submerged floating tu.. [611]
53. Twinning in Nanocrystalline Ni by Severe Plastic Deformation [610]
54. 激光熔覆铁基大厚度非晶合金表层的研究 [609]
55. 水中悬浮隧道锚索在波流场中的涡激动力响应 [609]
56. 计及轴向压力的方管节点塑性铰线模型 [601]
57. 合金材料超高周疲劳行为的基本特征和影响因素 [601]
58. Axisymmetric compressive buckling of multi-walled carbon nanotubes.. [600]
59. Propensities of crack interior initiation and early growth for ver.. [597]
60. 限定型高压扭转变形分析 [596]
61. Localized Solid-State Amorphization at Grain Boundaries in a Nanoc.. [595]
62. 曲线形水中悬浮隧道的温度内力研究 [592]
63. Synthesis of thick Ni66Cr5Mo4Zr6P15B4 amorphous alloy coating and .. [587]
64. 短裂纹随机行为与金属疲劳损伤的理论分析 [583]
65. Dynamic equations for curved submerged floating tunnel [578]
66. Novel Fe70Zr10Ni6Al4Si6B4 thick metallic glass coating produced by.. [576]
67. Editorial Material of "Fatigue & Fracture of Engineering Materials.. [569]
68. In Situ Synthesis of Nanocrystalline Intermetallic Compound Layer .. [568]
69. 应力比对疲劳裂纹扩展速率和疲劳强度的影响 [567]
70. 材料磨损与微电子机械系统中的磨损现象 [566]
71. 利用迹线测量晶体材料中特征面取向的EBSD方法 [566]
72. Microstructural evolution of a laser-cladded coating [564]
73. 有限变形下材料的弹塑性损伤行为及结构响应分析 [564]
74. Experiments and analyses on tensile behaviour of a TiAl alloy with.. [563]
75. Crack tip behavior and crack-propagation in ductile materials [563]
76. 转速对高压扭转Cu试样的组织与性能的影响 [561]
77. IUTAM和ICTAM的起源和历程 [558]
78. 电解沉积纳米镍退火析出相的EBSD分析 [553]
79. Effects of stress ratio on crack growth rate and fatigue strength .. [551]
80. 钱学森工程科学思想的实践者 [550]
81. Collective evolution characteristics and computer simulation of vo.. [548]
82. 低合金钢超高周疲劳的基本特征与机理 [548]
83. Influence of processing temperature on microstructure and microhar.. [548]
84. Fatigue crack-growth from a circular notch under high-levels of bi.. [547]
85. 超高周疲劳研究现状及展望 [543]
86. Damage assessment and preservation of suspending system of Yongle-.. [541]
87. Interfacial microstructure and mechanical behaviour in laser clad .. [540]
88. 环境介质对40Cr结构钢高周和超高周疲劳行为的影响 [538]
89. Micromechanics Modeling Of Strength For Nanocrystalline Copper [535]
90. 纳米晶材料变形行为的微观力学分析 [535]
91. 脉冲激光合金化形成含非晶相表层的微观组织 [533]
92. 高压扭转铜试样的微观组织与压缩性能 [527]
93. Shear flow induced vibrations of long slender cylinders with a wak.. [527]
94. 不同浮重比水中悬浮隧道动力特性的实验研究 [523]
95. 高压扭转致纯铜晶粒细化及与应变的关系 [522]
96. 限定型高压扭转过程变形研究 [522]
97. 材料分叉的数值分析 [516]
98. 复合材料薄壁梁的固有特性分析 [515]
99. Correlation of crack growth rate and stress ratio for fatigue dama.. [515]
100. 铁基合金激光熔覆涂层的高温回火组织及其磨损性能 [513]

Downloads

1. A review of recent studies on vortex-induced vibrations of long sl.. [479]
2. Effects of inclusion size and stress ratio on fatigue strength for.. [397]
3. Influences of Structural Damping and Buoyancy-Weight Ratio on Dyna.. [329]
4. Researches on essential mechanics issues for submerged floating tu.. [319]
5. Fractography and Crack Initiation of Very-High-Cycle Fatigue for a.. [293]
6. Nonlinear dynamics of a submerged floating moored structure by inc.. [287]
7. 微米/纳米尺度的材料力学性能测试 [274]
8. Effects of inclusion size and location on very-high-cycle fatigue .. [274]
9. Effects of strength level and loading frequency on very-high-cycle.. [271]
10. 大长细比圆柱体顺流向与横向耦合涡激振动的研究 [268]
11. Two-dimensional Vortex-induced Vibrations of Submerged Floating Tu.. [252]
12. Fe-based thick amorphous-alloy coating by laser cladding [251]
13. Effects of fundamental structure parameters on dynamic responses o.. [250]
14. An experimental investigation of dual-resonant and non-resonant re.. [238]
15. 激光熔覆铁基大厚度非晶合金表层的研究 [233]
16. 确定断裂表面晶体学取向的电子背散射衍射方法 [231]
17. On the slack phenomena and snap force in tethers of submerged floa.. [230]
18. 确定ZnO颗粒生长方向的电子背散射衍射方法 [225]
19. Experimental and theoretical investigation of environmental media .. [221]
20. 双轴拉伸应力下后继屈服面的演化研究 [213]
21. Correlation of Crack Initiation Parameters with Life Estimation fo.. [210]
22. Effects of stress ratio on crack growth rate and fatigue strength .. [207]
23. 纳米晶Ni疲劳行为的实验研究 [202]
24. A cumulative damage model for fatigue life estimation of high-stre.. [200]
25. 短裂纹随机行为与金属疲劳损伤的理论分析 [197]
26. 材料磨损与MEMS中的磨损现象 [195]
27. 水中悬浮隧道锚索在波流场中的涡激动力响应 [193]
28. Propensities of crack interior initiation and early growth for ver.. [192]
29. GCr15钢超高周疲劳行为的实验研究 [190]
30. Dynamic response and structural integrity of submerged floating tu.. [190]
31. 初生α相比例对TC4超高周疲劳行为的影响 [187]
32. Prediction of threshold value for FGA formation [180]
33. Microstructure of Zr-alloyed coating using pulsed laser [174]
34. Microstructural evolution of a laser-cladded coating [172]
35. Investigation of high cycle and Very-High-Cycle Fatigue behaviors .. [171]
36. Nanocrystalline Formation during Mechanical Attrition of Cobalt [169]
37. Effect of grain size on collective damage of short cracks and fati.. [169]
38. Flow-induced vibrations of long circular cylinders modeled by coup.. [169]
39. Microstructure and Evolution of Mechanically-Induced Ultrafine Gra.. [166]
40. Axisymmetric compressive buckling of multi-walled carbon nanotubes.. [162]
41. 曲线形水中悬浮隧道的温度内力研究 [161]
42. 水中悬浮隧道管段锚索耦合模型涡激振动的研究 [159]
43. Deformation Twinning in Nanocrystalline Ni during Cryogenic Rollin.. [158]
44. 应力比对疲劳裂纹扩展速率和疲劳强度的影响 [157]
45. 超高周疲劳研究现状及展望 [156]
46. Strain-Induced Grain Refinement of Cobalt During Surface Mechanica.. [155]
47. Gamma -> Epsilon Martensite Transformation and Twinning Deformatio.. [153]
48. Shear flow induced vibrations of long slender cylinders with a wak.. [153]
49. 高强钢超高周疲劳裂纹萌生和初始扩展的机理与模型 [153]
50. Fatigue strength and crack initiation mechanism of very-high-cycle.. [151]
51. Dynamic buckling behavior of multi-walled carbon nanotubes subject.. [150]
52. Interfacial microstructure and mechanical behaviour in laser clad .. [149]
53. Synthesis of thick Ni66Cr5Mo4Zr6P15B4 amorphous alloy coating and .. [148]
54. 微结构对25CrMo4钢的高周、超高周疲劳行为的影响 [146]
55. 辛体系下曲线形水中悬浮隧道对波浪激励的动力响应研究 [144]
56. Dynamic shell buckling behavior of multi-walled carbon nanotubes e.. [144]
57. 剪切流中大长细比圆柱体的二维涡激振动 [143]
58. 计及轴向压力的方管节点塑性铰线模型 [142]
59. 高压扭转致纯铜晶粒细化及与应变的关系 [142]
60. Novel Fe70Zr10Ni6Al4Si6B4 thick metallic glass coating produced by.. [139]
61. IUTAM和ICTAM的起源和历程 [139]
62. Correlation of crack growth rate and stress ratio for fatigue dama.. [137]
63. Very high cycle fatigue for GCr15 steel with smooth and hole-defec.. [136]
64. 纳米晶材料变形行为的微观力学分析 [135]
65. In Situ Synthesis of Nanocrystalline Intermetallic Compound Layer .. [133]
66. 基于局域分析的疲劳短裂纹群体演化随机模型 [130]
67. 金属材料超高周疲劳行为的Monte-Carlo模拟 [130]
68. 有限变形下材料的弹塑性损伤行为及结构响应分析 [129]
69. Twinning in Nanocrystalline Ni by Severe Plastic Deformation [128]
70. Microstructure and mechanical properties at TiCp/Ni-alloy interfac.. [128]
71. 材料磨损与微电子机械系统中的磨损现象 [128]
72. 转速对高压扭转Cu试样的组织与性能的影响 [128]
73. 加载频率对金属材料超高周疲劳性能的影响 [128]
74. 铁基合金激光熔覆涂层的高温回火组织及其磨损性能 [127]
75. 利用迹线测量晶体材料中特征面取向的EBSD方法 [127]
76. 水中悬浮隧道研究进展 [127]
77. 基于HR-EBSD的位错动力学行为观测 [126]
78. Study on Ropeway Car Failure [124]
79. 限定型高压扭转变形分析 [124]
80. 表面纳米化Zr的拉伸性能 [123]
81. 复合材料薄壁梁的固有特性分析 [123]
82. Study on fatigue crack nucleation of electrodeposited nanocrystall.. [123]
83. Simulations and Experiments of Stochastic Characteristics for Coll.. [122]
84. In Situ Synthesis Of Nanocrystalline Intermetallic Layer During Su.. [122]
85. 水中悬浮隧道在波浪场中非线性动力响应的研究 [122]
86. A statistical analytical method for fatigue reliability containing.. [121]
87. 低合金钢超高周疲劳的基本特征与机理 [119]
88. Crack propagation mechanism and life prediction for very-high-cycl.. [119]
89. Complex stress functions and plastic zone sizes for notch cracks s.. [118]
90. An analysis on overall crack-number-density of short-fatigue-crack.. [114]
91. 大长径比结构涡激振动响应中的行波特性研究 [113]
92. 脉冲激光合金化形成含非晶相表层的微观组织 [112]
93. Orientation preference and fractal character of short fatigue crac.. [112]
94. 微纳米晶金属的应变率敏感性及应变硬化行为分析 [112]
95. Fatigue strength and crack initiation mechanism of very-high-cycle.. [110]
96. A model to predict S-N curves for surface and subsurface crack ini.. [110]
97. 电解沉积纳米镍退火析出相的EBSD分析 [107]
98. 高能气动喷丸致纯铜细晶化的实验与模拟 [107]
99. SPD纳米材料制备方法及其力学特性 [107]
100. 钱学森工程科学思想的实践者 [106]