Material Science
Air
100%
Aluminum Nitride
71%
Atomic Structure
35%
Bismuth Ferrite
71%
Corrosion
11%
Crystal Structure
71%
Crystalline Material
23%
Crystals
23%
Density
71%
Ductility
47%
Electron Energy Loss Spectrometry
35%
Electronic Structure
35%
Film
35%
Finite Element Method
11%
Finite Element Modeling
14%
Formability
11%
Functional Material
35%
Heat Convection
14%
Heat Treatment
14%
Heterojunction
71%
High Strength Steels
71%
Hydrogen Bonding
23%
Iron
71%
Iron Ion
17%
Lattice Constant
71%
Layered Material
17%
Liquid Metal
11%
Liquid Metal Embrittlement
71%
Magnetic Material
17%
Magnetic Property
17%
Materials
83%
Materials Design
35%
Materials Property
14%
Microscopy
53%
Modeling of Grain Growth
71%
Monolayers
71%
Oxidation Reaction
35%
Oxide Compound
71%
Oxygen Vacancy
71%
Perovskite
35%
Phyllosilicate
35%
Plastics
11%
Polymorphism
71%
Sensor
14%
Solution Structure
71%
Spot Welding
23%
SQUID (Device)
17%
Strain Rate
11%
Strontium
71%
Structural Analysis
17%
Temperature
47%
Tensile Testing
11%
Thermal Conductivity
85%
Thermal Sensor
28%
Thin Films
35%
Titanate
71%
Transmission Electron Microscopy
35%
Two-Dimensional Material
71%
Ultimate Tensile Strength
11%
X-Ray Diffraction
71%
X-Ray Photoelectron Spectroscopy
35%
Engineering
Convection Coefficient
14%
Crystal Size
23%
Crystal Structure
71%
Decohesion
11%
Experimental Result
23%
Fracture Strain
11%
Growth Kinetics
23%
Induced Surface
71%
Induction Heat
14%
Limited Amount
23%
Monoclinic
23%
Net Pressure
23%
Packing
47%
Phase Material
71%
Potential Yield
23%
Prediction
71%
Ray Diffraction
71%
Sheet Resistance
11%
Spatial Evolution
23%
State Behavior
23%
Thin Layer
23%