Engineering & Materials Science
Sintering
100%
Electric currents
61%
Powders
53%
Titanium
50%
Molybdenum alloys
40%
Zirconium alloys
38%
Physical vapor deposition
32%
Aluminum oxide
31%
Computer aided engineering
29%
Shape memory effect
28%
Titanium alloys
27%
Alumina
26%
Multilayers
25%
Zirconium
24%
Graphite
23%
Oxidation
23%
Molybdenum
23%
Coatings
19%
Fabrication
19%
Wear of materials
19%
Spark plasma sintering
17%
Temperature
14%
Crystalline materials
13%
Hardness
12%
Tungsten carbide
10%
Microstructure
10%
Self-propagating high-temperature synthesis
9%
Heating rate
9%
Corundum
9%
Mechanical stability
8%
Chemical analysis
8%
Powder metals
8%
Binders
8%
Protective coatings
8%
Cermets
7%
Hot pressing
7%
Consolidation
6%
Thermodynamic stability
6%
Energy dispersive spectroscopy
6%
Evaporation
6%
Annealing
6%
Hot Temperature
6%
Heating
6%
Explosions
6%
Throughput
6%
Thermal conductivity
5%
Vacuum
5%
Oxides
5%
Scanning electron microscopy
5%
Chemical Compounds
Current
67%
Sintering
65%
Shape Memory Alloys
38%
Wear
24%
Industry
24%
Multilayer
23%
Alloy
22%
Application
16%
Coating Agent
15%
Face-Centered Cubic Crystal System
14%
Specific Density
13%
Cylinder
12%
Oxidation Reaction
11%
Cubic Space Group
10%
Aluminium Oxide
8%
Nonconductor
7%
Plasma
7%
Crystal Structure
6%
Liquid Film
6%
Thermal Conductivity
6%
Evaporation
5%
Protective
5%
Reflection
5%
Annealing
5%
Ceramic
5%
Physics & Astronomy
sintering
40%
molybdenum alloys
37%
zirconium alloys
34%
zirconium oxides
26%
manufacturing
21%
titanium
21%
molybdenum
19%
oxidation
19%
coatings
17%
fabrication
15%
heating
12%
products
12%
metal powder
8%
cubic lattices
7%
consolidation
7%
hot pressing
7%
densification
6%
low voltage
6%
high current
6%
balls
5%
thermal stability
5%
graphite
5%
arcs
5%
aluminum oxides
5%
methodology
5%
hardness
5%
evaporation
5%