Engineering & Materials Science
Spark plasma sintering
100%
Tungsten
49%
Sintering
39%
Fires
37%
Copper
26%
Temperature
25%
Radiation
23%
Powders
22%
Reynolds number
22%
Tungsten carbide
22%
Heat transfer
22%
Grain growth
20%
Heat flux
19%
Microstructure
18%
Turbines
18%
Gases
17%
Natural convection
17%
Emulsions
17%
Ignition
17%
Hot Temperature
17%
Thermal conductivity
17%
Diamonds
16%
Tantalum
15%
Heat sinks
15%
Composite materials
15%
Fuel burners
14%
Pyrolysis
13%
Turbomachine blades
13%
Welds
12%
Oils
12%
Physical vapor deposition
12%
Gravitational effects
12%
Enthalpy
12%
Water
12%
Hardness
12%
Mechanical properties
11%
Solid propellants
11%
Zirconium
11%
Composite propellants
11%
Cooling
11%
Silver
11%
Heating rate
10%
Feedback
10%
Computer simulation
10%
Electric arc welding
10%
Tantalum alloys
8%
Fluidized beds
8%
Fouling
8%
Glass furnaces
8%
Chemical Compounds
Sintering
64%
Tungsten
44%
Heat
31%
Fire
29%
Thermal Conductivity
22%
Flame
20%
Gravity
17%
Tungsten Carbide
16%
Sintering Behavior
16%
Grain Growth
16%
Alloy
16%
Gas
15%
Turbine
15%
Surface
15%
Fuel
15%
Microstructure
15%
Emulsion
14%
Flow
14%
Composite Material
13%
Heat Transfer
13%
Grain Size
11%
Specific Density
11%
Burner
10%
Velocity
10%
Shape
9%
Plate Like Crystal
8%
Oil Spill
8%
Simulation
8%
Application
7%
Slab Like Crystal
7%
Pressure
7%
Radiative Heat Transfer
7%
In Situ Combustion
7%
Refractory Metal
7%
Diamond
7%
Heat Exchanger
6%
Diffusion Flame
6%
Solidification
6%
Ductility
6%
Gasification
5%
Methane
5%
Pyrolysis
5%
Fluidized Bed
5%
Additive
5%
Refractory
5%
Microelectronics
5%
Glass
5%
Models (Physical)
5%
Physics & Astronomy
sintering
20%
burning rate
14%
flames
13%
free convection
12%
heat
10%
tungsten carbides
9%
tantalum alloys
9%
tantalum
9%
tungsten alloys
9%
atmospheres
8%
mechanical properties
7%
tungsten
7%
heat transfer
7%
heat flux
6%
radiation
6%
temperature
6%
composite propellants
5%
leading edges
5%
diffusion flames
5%
gasification
5%
composite materials
5%