先進軽金属材料国際研究機構先進アルミニウム国際研究センター

Keyphrases

1. Biological Apatite 100%
2. Laser Powder Bed Fusion (L-PBF) 56%
3. Bone Quality 49%
4. Apatite Orientation 43%
5. Apatite 37%
6. Microstructure 36%
7. Crystallographic Texture 35%
8. Collagen 33%
9. Mechanical Properties 31%
10. C-axis 30%
11. Crystal Orientation 29%
12. Preferential Orientation 28%
13. Young's Modulus 27%
14. Mechanical Function 26%
15. Cortical Bone 26%
16. Bone Mineral Density 26%
17. Electron Beam Melting 22%
18. Trabecular Bone 21%
19. Long Bone 21%
20. Bone Regeneration 20%
21. Apatite Crystals 20%
22. Preferential Alignment 20%
23. Selective Laser Melting 19%
24. Additive Manufacturing 19%
25. Biological Apatite Crystallite 18%
26. Low Young's Modulus 18%
27. Bone Formation 17%
28. Osteoblast 17%
29. Osteocyte 16%
30. Stress Distribution 16%
31. Melt Pool 16%
32. Bone Tissue 15%
33. Biomedical Applications 15%
34. Ti-6Al-4V (Ti64) 15%
35. Regenerated Bone 14%
36. New Bone 14%
37. Metal Additive Manufacturing 14%
38. Anisotropy 13%
39. C-axis Orientation 13%
40. Single-crystalline 13%
41. Crystallites 13%
42. Elongated Pores 13%
43. Microbeam X-ray 13%
44. X-ray Diffractometer 13%
45. Bone Microarchitecture 12%
46. Rutile 12%
47. Electron Beam Powder Bed Fusion (EB-PBF) 12%
48. Ti-6Al-4V Alloy 11%
49. Mouse Femur 11%
50. Melting Process 11%
51. Bone Morphogenetic protein-2 (BMP-2) 11%
52. Bone Loss 11%
53. Texture Evolution 10%
54. Stress Shielding 10%
55. Femur 10%
56. Implant Surface 10%
57. Hard Tissue 9%
58. Regeneration 9%
59. In Vitro Stress 9%
60. Single Crystal 9%
61. Bone Mass 9%
62. Collagen Fibers 9%
63. Bone Defect Regeneration 9%
64. Anti-RANKL Monoclonal Antibody 9%
65. Teriparatide 9%
66. Ti-15Mo 9%
67. X-ray Microdiffraction 9%
68. Build Direction 8%
69. Ulna 8%
70. Bone Implants 8%
71. Biocompatibility 8%
72. Regenerative Process 8%
73. Mandible 8%
74. Bone Axis 8%
75. Heat Treatment 8%
76. Extracellular Matrix 8%
77. Al-Mg Alloy 7%
78. Lamellar Microstructure 7%
79. High-entropy Alloy 7%
80. Two Dimensional 7%
81. Crystallographic Texture Control 7%
82. Additive Technologies 7%
83. Metallic Implants 7%
84. Open Pore 7%
85. Mechanical Loading 7%
86. Stress Shielding Effect 7%
87. Osteocalcin 7%
88. Healing Process 7%
89. Bone Plates 7%
90. Crystal Growth 7%
91. Antibacterial Properties 7%
92. Intermetallic Compounds 6%
93. Demineralization 6%
94. Biomaterial Design 6%
95. Rat Femur 6%
96. Chromium 6%
97. Bone Cells 6%
98. Orientation Control 6%
99. Ti Alloy 6%
100. Repetitive Loading 6%

Engineering

1. Powder Bed Fusion 61%
2. Crystallographic Texture 44%
3. Young's Modulus 36%
4. Anisotropic 32%
5. Implant 31%
6. Additive Manufacturing 24%
7. Crystallite 22%
8. Melt Pool 19%
9. Selective Laser Melting 16%
10. Biomedical Application 14%
11. Crystallographic Orientation 14%
12. Laser Beams 10%
13. Healing Process 10%
14. Build Direction 9%
15. Electron Beam Melting 9%
16. Nanoscale 9%
17. Crystal Orientation 9%
18. Shielding Effect 9%
19. Building Direction 9%
20. Stainless Steel 9%
21. Process Parameter 9%
22. Residual Stress 8%
23. Applied Stress 8%
24. High-Entropy Alloys 7%
25. Austenitic Stainless Steel 7%
26. Hydrogel 7%
27. Ti-6al-4v Alloy 7%
28. Phase Composition 7%
29. Additive Manufacturing Technology 7%
30. Grain Boundaries 6%
31. Stress Field 6%
32. Gamma Ray 6%
33. Scanning Strategy 6%
34. Artificial Hip Joint 6%
35. Steel Scrap 6%
36. Regenerative Process 6%
37. Porous Implant 6%
38. Creep 6%
39. Thermal Gradient 6%
40. Corrosion Resistance 5%
41. Antibacterial Property 5%
42. Measurement System 5%
43. Solid Solutions 5%
44. Crystallizes 5%
45. Energy Absorption Capacity 5%
46. Mineralisation 5%
47. Fusion Process 5%