民航学院

Engineering

1. Fault Diagnosis 67%
2. Strain Rate 60%
3. Experimental Result 59%
4. Unmanned Aerial Vehicle 45%
5. Rolling Bearings 45%
6. Impact Loads 31%
7. Tensiles 29%
8. Finite Element Analysis 27%
9. Bearing Fault Diagnosis 25%
10. Feature Extraction 25%
11. High Strain Rate 25%
12. Ultrasonics 24%
13. Failure Behavior 24%
14. Loading Rate 23%
15. Simulation Result 22%
16. Fatigue Behavior 22%
17. Rotating Machinery 21%
18. Constitutive Model 20%
19. Split Hopkinson Pressure Bar 18%
20. Static Loading 17%
21. Failure Mechanism 17%
22. Plastic Deformation 17%
23. Hopkinson 17%
24. Dynamic Loads 16%
25. Hopkinson Bar 16%
26. Rolling Process 16%
27. Compression Strength 16%
28. Impact Damage 16%
29. Target Tracking 16%
30. Elevated Temperature 15%
31. Deep Learning Method 15%
32. Two Dimensional 15%
33. Compressive Strength 15%
34. Tracking (Position) 15%
35. Multiscale 15%
36. Dynamic Response 14%
37. Fretting Fatigue 14%
38. Strain Rate Sensitivity 14%
39. Rates of Strain 13%
40. Impact Test 13%
41. Finite Element Modeling 13%
42. Fatigue Life 12%
43. Delamination 12%
44. Flow Stress 12%
45. Compressive Behavior 11%
46. Loading Condition 11%
47. Impact Velocity 11%
48. Convolutional Neural Network 11%
49. Reinforcement Learning 11%
50. Shot Peening 11%
51. Equal Channel Angular Pressing 11%
52. Aero-Engines 11%
53. Tensile Loads 11%
54. Room Temperature 11%
55. Actuator 11%
56. Fracture Strength 11%
57. Ti-6al-4v 10%
58. Joints (Structural Components) 10%
59. Good Agreement 10%
60. Compressive Residual Stress 10%
61. Digital Image Correlation 10%
62. Numerical Model 10%
63. Residual Stress 10%
64. Stainless Steel 10%
65. Stress Wave 10%
66. Deformation Behavior 10%
67. Fixed Wings 10%
68. Sliding Mode Control 9%
69. Quadcopter 9%
70. Finite Element Simulation 9%
71. Rod 9%
72. Speed Camera 9%
73. Failure Mode 9%
74. Energy Absorption 9%
75. Rotors 9%
76. Impact Resistance 9%
77. Deformation Mechanism 9%
78. Failure Process 9%
79. Tracking Algorithm 9%
80. Damage Behavior 9%
81. Test Result 9%
82. Lithium-Ion Batteries 8%
83. Strain Hardening 8%
84. Crack Growth 8%
85. Ti-6al-4v Alloy 8%
86. Autoencoder 8%
87. Nanocrystalline 8%
88. Impact Response 8%
89. Ultimate Tensile Strength 8%
90. Recurrent 8%
91. Fracture Surface 8%
92. Composite Panel 8%
93. Tensile Test 7%
94. Corrosion Fatigue 7%
95. Dynamic Behavior 7%
96. High Strength Steel 7%
97. Testing Machine 7%
98. Fatigue Resistance 7%
99. Mechanical Response 7%
100. Failure Strain 7%

Material Science

1. Composite Material 100%
2. Strain Rate 80%
3. Surface (Surface Science) 70%
4. Fretting Fatigue 42%
5. Fatigue of Materials 40%
6. Finite Element Method 35%
7. Plastic Deformation 32%
8. Fatigue Behavior 31%
9. Titanium Alloy 30%
10. Aircraft 27%
11. Density 26%
12. Deformation Mechanism 24%
13. Impact Loads 23%
14. Fracture Toughness 22%
15. Residual Stress 22%
16. Shot Peening 21%
17. Ti-6Al-4V 21%
18. Dynamic Loads 20%
19. Aluminum 20%
20. Carbon Fiber 18%
21. Equal Channel Angular Extrusion 17%
22. Static Loading 17%
23. Delamination 16%
24. Grain Size 16%
25. Work Hardening 15%
26. Composite Laminate 14%
27. Ultimate Tensile Strength 13%
28. Scanning Electron Microscopy 13%
29. Grain Boundary 12%
30. Nanocrystalline 12%
31. Film 12%
32. Aluminum Alloy 12%
33. Shear Band 11%
34. Mechanical Metamaterials 11%
35. Corrosion 11%
36. Compressive Strength 11%
37. Finite Element Modeling 10%
38. Metamaterial 10%
39. Magnesium Alloy 10%
40. Amorphous Metal 9%
41. Stainless Steel 9%
42. Yield Stress 9%
43. Wear Resistance 9%
44. Magnesium Alloys 9%
45. Nanostructure 9%
46. Crack Growth 9%
47. Lithium Ion Battery 9%
48. Crack Propagation 9%
49. Dynamic Fracture 8%
50. Impact Testing 8%
51. Volume Fraction 8%
52. Titanium 7%
53. Impact Resistance 7%
54. Perovskite Solar Cell 7%
55. Three Dimensional Printing 7%
56. Crack Initiation 7%
57. Tensile Loads 7%
58. Bulk Metallic Glass 7%
59. Fretting Wear 7%
60. Waveguide 7%
61. Corrosion Fatigue 6%
62. Fiber-Reinforced Composite 6%
63. Carbon Carbon Composites 6%
64. Matrix Composite 6%
65. Graphene 6%
66. Crack Tip 6%
67. Polycrystal 6%
68. Polyetheretherketone 6%
69. Indentation 6%
70. Fretting 6%
71. Crystal Defect 6%
72. Composite Material 6%
73. Microhardness 6%
74. High Strength Steel 6%
75. Surface Modification 5%
76. Damage Evolution 5%
77. Thermoelectrics 5%
78. High Entropy Alloys 5%
79. Laminated Composite 5%
80. Composite Films 5%
81. Effect of Strain 5%
82. Alloying 5%
83. Nanocomposite 5%
84. Mechanical Testing 5%
85. Fatigue Crack 5%
86. Reinforced Plastic 5%
87. Stress Field 5%
88. Adiabatic Shear Band 5%
89. Metal Matrix Composite 5%
90. Stress Concentration 5%
91. Multilayer Film 5%
92. Shear Strength 5%
93. Fatigue Damage 5%
94. Aluminosilicate 5%
95. Stress Intensity Factor 5%
96. Elastic Moduli 5%
97. Grain Refinement 5%