INIS
cements
100%
finite element method
100%
encapsulation
100%
thermal conductivity
100%
modeling
100%
aluminates
87%
calcium
87%
ozone
62%
fillers
50%
increasing
25%
epoxides
25%
resins
25%
stability
25%
gels
12%
silicones
12%
miniaturization
12%
power
12%
physical properties
12%
power density
12%
bears
12%
lasers
12%
applications
12%
temperature range 0273-0400 k
12%
simulation
12%
aluminium oxides
12%
spheres
12%
semiconductor materials
12%
thermal expansion
12%
accuracy
12%
cost
12%
packaging
12%
silicon carbides
12%
electronic equipment
12%
experimental data
12%
gallium nitrides
12%
porosity
12%
Material Science
Thermal Conductivity
100%
Cement
100%
Finite Element Modeling
100%
Calcium
87%
Temperature
75%
Composite Material
62%
Filler
50%
Epoxy
25%
Thermal Stability
25%
Silicone Gel
12%
Physical Property
12%
Electronic Device
12%
Silicon Carbide
12%
Density
12%
Gallium Nitride
12%
Laser
12%
Porosity
12%
Characterization
12%
Thermal Expansion
12%
Aluminum Oxide
12%
Engineering
Calcium Aluminate
100%
Composite
57%
Models
28%
Sphere
14%
High Operating Temperature
14%
Energy Gap
14%
Porosity
14%
Power Electronics
14%
Material Development
14%
Gap Semiconductor
14%
Cement Composite
14%
Filler Material
14%
Nitride
14%
Experiments
14%
Miniaturization
14%
Coefficient of Thermal Expansion
14%
Power Density
14%
Electronic Devices
14%
Chemical Engineering
Thermal Conductivity
100%
Calcium
100%
Temperature
85%
Epoxy Resin
28%
Alumina
14%
Silicon Carbide
14%
Gel
14%
Silicone
14%