Engineering & Materials Science
Polycyclic aromatic hydrocarbons
100%
Copolymers
83%
Polyethylenes
74%
Carbon fibers
65%
Melt spinning
23%
Carbon
17%
Molecules
15%
Crude oil
13%
Graft copolymers
13%
Dehydrogenation
10%
Raman spectroscopy
10%
Plasticizers
10%
Gas fuel analysis
10%
Carbonization
10%
Mass spectrometry
10%
Crosslinking
9%
Inert gases
9%
Nuclear magnetic resonance
9%
Rheology
8%
Thermogravimetric analysis
8%
X ray diffraction
7%
Hot Temperature
7%
Hydrocarbons
6%
Viscosity
6%
Temperature
6%
Costs
5%
Polymers
5%
Energy utilization
5%
Chemical Compounds
Carbon Fiber
64%
Copolymer
46%
Petroleum
31%
Polyethylene Polymer
26%
Carbon Atom
24%
Melt Viscosity
22%
Chemical Transformation
22%
Gas Fuel Analysis
22%
13C Solid-State Nuclear Magnetic Resonance Spectroscopy
22%
Inert Atmosphere
19%
Energy Consumption
19%
Noble Gas Atom
18%
Graft Copolymer
18%
Plasticizer
17%
Tension
16%
Dehydrogenation
16%
Rheology
15%
Crosslinking
14%
Raman Spectroscopy
13%
Thermogravimetric Analysis
12%
Hydrocarbon
12%
Molecule
12%
Mass Spectrometry
11%
X-Ray Diffraction
8%
Reaction Yield
7%