INIS
oxidation
100%
glass
100%
environment
100%
sulfides
100%
aging
100%
oxygen
60%
polymers
60%
potassium hydroxides
40%
electrolysis
40%
solutions
40%
fiberglass
40%
operation
20%
air
20%
electrolytes
20%
dissolution
20%
encapsulation
20%
applications
20%
testing
20%
supply
20%
matrices
20%
scanning electron microscopy
20%
weight
20%
cerium sulfides
20%
raw materials
20%
thermoplastics
20%
recovery
20%
creep
20%
degradation (chemical)
20%
water
20%
xrd
20%
chemical industry
20%
data
20%
concentration
20%
renewable energy sources
20%
engineering
20%
mechanical properties
20%
high pressure
20%
Engineering
Poly-Phenylene Sulphide
100%
Composite
100%
Aging
100%
Polysulfone
100%
Alkaline Environment
100%
Polymers
60%
Fiber
40%
Application
20%
Electrolyte Cell
20%
Measurement
20%
Alkaline Solution
20%
High Temperature
20%
Pure Oxygen
20%
Marginals
20%
Mechanical Properties
20%
Promising Candidate
20%
Alkaline Electrolysis
20%
High Pressure
20%
Chemical Degradation
20%
Tensiles
20%
Temperature Superposition
20%
Alkaline Water Electrolysis
20%
Testing
20%
Creep
20%
Differential Mobility Analyzer
20%
Renewable Energy
20%
Recovery
20%
Engineering
20%
Elevated Temperature
20%
Temperature
20%
Thermal Behavior
20%
Oxidative Degradation
20%
Material Science
Composite Material
100%
Polyphenylene
100%
Glass
100%
Temperature
80%
Glass Fiber
40%
Bar (Metal)
40%
Polymers
40%
Differential Scanning Calorimetry
20%
Scanning Electron Microscopy
20%
Water
20%
Creep
20%
Air
20%
Electrolyte
20%
Raw Material
20%
Oxidative Degradation
20%
Chemical Degradation
20%
Polymer Engineering
20%
X-Ray Diffraction
20%
Thermoplastics
20%
Characterization
20%
Keyphrases
Sulfide Glass
100%
Polysulfone
100%
Weight Recovery
20%
Strong Alkaline Solution
20%
Thermo-oxidative Stability
20%
CES EduPack
20%
KOH Concentration
20%
Three-temperature
20%
Thermochemical Degradation
20%