Teknik og materialevidenskab
Glass
92%
Borosilicate glass
84%
Radiation effects
76%
Hot pressing
67%
Mechanical properties
67%
Calcium
63%
Indentation
62%
Silica
59%
Hybrid materials
55%
Aging of materials
46%
Hardness
44%
Cationic polymerization
38%
Irradiation
35%
Ring opening polymerization
34%
Crack initiation
30%
Organic polymers
30%
Interpenetrating polymer networks
30%
Polymers
28%
Functional materials
27%
Elastic moduli
27%
Biodegradation
27%
Hydrogen bonds
26%
Sol-gels
25%
Crosslinking
24%
Biomaterials
23%
Polymerization
21%
Thermodynamic stability
20%
Condensation
19%
Hybrid systems
19%
Bone
18%
Heavy ions
16%
Robotics
14%
Radioactive wastes
14%
Ion bombardment
9%
Nanohardness
8%
Infrared spectroscopy
7%
Raman spectroscopy
7%
Temperature
7%
Chemical analysis
7%
Densification
7%
Waste disposal
6%
Boron
6%
Sodium
5%
Solidification
5%
Residual stresses
5%
Oxides
5%
Ions
5%
Kemiske forbindelser
Aluminoborosilicate Glass
100%
Radiation Effect
83%
Crack Initiation
74%
Borosilicate Glass
73%
Resistance
45%
Calcium(0)
45%
Robotics
35%
Interpenetrating Polymer Network
34%
Young's Modulus
30%
Biodegradation
30%
Intermolecular Force
25%
Polymer Chain
25%
Biomaterial
24%
Connectivity Density
23%
Application
22%
Condensation
21%
Thermal Stability
19%
High Level Radioactive Waste
18%
Heavy Ion
18%
Surface Damage
17%
Polymerization Reaction
17%
Residual Stress
15%
Hydrogen
14%
Densification
12%
Volume
11%
Shear
10%
Solidification
7%
Boron Atom
5%
Fysik og astronomi
glass
67%
borosilicate glass
66%
radiation effects
64%
indentation
57%
calcium
57%
mechanical properties
43%
crack initiation
36%
hardness
34%
irradiation
22%
radioactive wastes
13%
modulus of elasticity
10%
heavy ions
10%
disposal
7%
alpha decay
7%
densification
6%
ion irradiation
6%
residual stress
5%
solidification
5%
infrared spectroscopy
5%
sodium
5%
boron
5%
