工学科　機械工学コース

Engineering

1. Rolling Contact Fatigue 100%
2. Bearing Steel 71%
3. Robot 68%
4. Mechanical Fatigue Test 53%
5. Joints (Structural Components) 47%
6. Fatigue Crack 43%
7. Rolling Contact 43%
8. Lattice-Boltzmann Method 34%
9. Crack Growth 33%
10. Fracture Surface 32%
11. Crack Propagation 32%
12. Thrust Bearing 30%
13. Fatigue Life 29%
14. Surface Crack 28%
15. Polyetheretherketone 26%
16. Subsurface 26%
17. Crack Initiation 25%
18. Magnetic Field 25%
19. Experimental Result 25%
20. Fatigue Strength 25%
21. Stainless Steel 24%
22. Crack Growth Behavior 24%
23. Superconductor 24%
24. Computer Simulation 24%
25. Room Temperature 23%
26. Stress-Intensity Factor 21%
27. Cross Section 21%
28. Two Dimensional 20%
29. High Strength Steels 20%
30. Low-Temperature 20%
31. Induction Heating 20%
32. Fatigue Crack Growth 20%
33. Robot System 19%
34. Nitride 18%
35. Ignition 17%
36. Magnetic Flux Density 17%
37. Young's Modulus 17%
38. Poly Ether Ether Ketone 17%
39. Degree of Freedom 17%
40. Finite Element Analysis 17%
41. Vortex 17%
42. Stress Ratio 16%
43. Diamond 16%
44. Heptane 15%
45. Prior Austenite Grain 15%
46. Crack Tip 15%
47. Tool Steel 15%
48. Coefficient of Friction 14%
49. Friction Coefficient 14%
50. Fatigue Property 14%
51. Fatigue Limit 14%
52. Compression Ignition 14%
53. Fatigue Behavior 14%
54. Boundary Layer 14%
55. Ball Bearing 14%
56. Boltzmann Equation 13%
57. Wear Resistance 13%
58. Pneumatics 13%
59. Servo System 13%
60. Life Region 13%
61. Phase Composition 13%
62. Mobile Robot 13%
63. Tensiles 13%
64. Rotation Speed 12%
65. End Effector 12%
66. Pure Bending 12%
67. Two-Phase Flow 12%
68. Compressive Stress 11%
69. Homogeneous Charge Compression Ignition 11%
70. Pure Titanium 11%
71. Austenitic Stainless Steel 11%
72. Axial Loading 10%
73. Dry Condition 10%
74. Heat Treatment 10%
75. Rate Constant 10%
76. Austenite Grain Size 10%
77. Stress Concentration 10%
78. S-N Curve 10%
79. Focused Ion Beam 10%
80. Tensile Test 10%
81. Task Space 10%
82. Fatigue Testing 10%
83. Image Processing 10%
84. Inverse Kinematics 10%
85. Relaxation Time 10%
86. Transients 10%
87. Control Signal 10%
88. Good Agreement 9%
89. Boundary Condition 9%
90. Internals 9%
91. High Cycle Fatigue 9%
92. Testing Machine 9%
93. Heat Release 9%
94. Stress Level 9%
95. Contact Stress 9%
96. Notched Specimen 9%
97. Ultimate Tensile Strength 9%
98. Reinforcement Learning 9%
99. Aluminum Oxide 9%
100. Forging 9%

Keyphrases

1. Rolling Contact Fatigue 98%
2. Bearing Steel 49%
3. Rolling Contact 44%
4. Fatigue Crack 36%
5. Fracture Surface 35%
6. Robot System 35%
7. Surface Crack 34%
8. Crack Propagation 29%
9. Room Temperature 29%
10. Bulk Superconductor 29%
11. Punching 27%
12. Polyetheretherketone 27%
13. Microstructure 25%
14. Rotating Bending 25%
15. Crack Growth 25%
16. SUJ2 25%
17. Three-dimensional (3D) 25%
18. Magnetic Field 24%
19. Robotic Swarm 23%
20. Systems-based 23%
21. Multi-robot Systems 23%
22. Flaking Failure 23%
23. Thrust Bearing 22%
24. Handshake 22%
25. Reinforcement Learning 21%
26. Contact Fatigue Test 21%
27. High Strength 21%
28. Numerical Simulation 21%
29. Swarm Robotic Systems 20%
30. Fatigue Strength 20%
31. Induction Heating 20%
32. Fatigue Test 20%
33. Silicon Nitride 19%
34. Mechanical Properties 18%
35. Rutile 18%
36. Crack Initiation 18%
37. Rotating Bending Fatigue Test 17%
38. Polymer Bearing 17%
39. Scanning Hall Probe Microscopy 17%
40. Wear Loss 17%
41. Lattice Boltzmann Method 17%
42. Tensile Test 17%
43. Induced Fracture 17%
44. Subtraction Stereo 16%
45. Magnetic Flux Density 16%
46. Motion Model 16%
47. Repeated Quenching 16%
48. Liquid Nitrogen Temperature 15%
49. Heptane 15%
50. Dimethyl Ether 15%
51. Crack Growth Behavior 15%
52. Stress Ratio 15%
53. Fine Granular Area 15%
54. S45C 15%
55. High Carbon High Chromium Steel 15%
56. Flakes 15%
57. Stress Intensity Factor 15%
58. Numerical Results 15%
59. High Carbon 14%
60. Collective Behavior 14%
61. Radial Bearing 14%
62. Fatigue Life 14%
63. Focused Ion Beam 14%
64. Embodied Interaction 14%
65. Contact Application 14%
66. Evolution Strategy 13%
67. Pneumatic Servo System 13%
68. Young's Modulus 13%
69. Ignition 13%
70. Fatigue Fracture 13%
71. Surface Crack Growth 13%
72. Three-dimensional Magnetic Field 13%
73. Mobile Robot 13%
74. Stress Concentration 13%
75. Retained Austenite 13%
76. Compression Ignition 13%
77. Fatigue Properties 13%
78. Fatigue Crack Growth 12%
79. 13Cr-2Ni-2Mo Stainless Steel 12%
80. Bending Collapse 12%
81. Image Processing 12%
82. Task Space 12%
83. S-N Curve 12%
84. Finite Element Method 12%
85. Rotational Speed 12%
86. Autonomous Robots 12%
87. Reinforcement Learning Algorithm 12%
88. Retainer 12%
89. Martensitic 12%
90. Fracture Mode 11%
91. Long-term Fatigue 11%
92. Chemical Etching 11%
93. Drying Conditions 11%
94. Fatigue Limit 11%
95. Neural Network 11%
96. Redundancy 11%
97. C-axis 11%
98. Two Dimensional 11%
99. Robot Joint 11%
100. Multi-joint 11%