Material Science
Oxide Glass
100%
Fracture Toughness
85%
Indentation
54%
Poisson Ratio
35%
Sodium
33%
Mechanical Strength
27%
Silicate Glass
22%
Metal-Organic Framework
20%
Deformation Mechanism
20%
Crack Initiation
19%
Vickers Hardness
18%
Density
18%
Shear Flow
18%
Al2O3
16%
Aluminosilicates
16%
Glass Transition Temperature
15%
Crack Growth
14%
Cesium
13%
Elastic Moduli
11%
Soda-Lime-Silica Glass
11%
Aluminum Oxide
11%
Lithium
11%
Amorphous Material
11%
Borate
11%
Thermal Conductivity
11%
Crystalline Material
11%
Zinc
11%
Lanthanum
11%
Young's Modulus
11%
Elasticity
11%
Differential Scanning Calorimetry
11%
Alkaline Earth Oxide
11%
Elastic Property
11%
Raman Spectroscopy
10%
Fracture Behavior
9%
Glass Composition
8%
Silicon Dioxide
7%
Free Volume
7%
Amorphous Metal
7%
Brittleness
7%
Crack Propagation
7%
Silicate
5%
Medium-Range Order
5%
Annealing
5%
Structure (Composition)
5%
Ductile-to-Brittle Transition
5%
Activation Energy
5%
Short-Range Order
5%
Stress Field
5%
Microhardness
5%
Mechanical Testing
5%
Thermal Property
5%
Vickers-Indentation
5%
Brittle Fracture
5%
Structural Relaxation
5%
Surface Energy
5%
Magnesium Oxide
5%
Chemical Property
5%
Keyphrases
Cracking Mechanism
11%
La2O3
11%
Doped Oxides
11%
Relaxation Kinetics
11%
Sodium Aluminoborosilicate Glass
11%
Amorphous Alumina
11%
α-Al2O3
11%
Mechanical Properties Optimization
11%
Lanthanum Doping
11%
Zinc Borate Glasses
11%
Cesium
11%
Aluminoborosilicate Glass
11%
High Hardness
11%
Crack-free
11%
Organic Glass
11%
Fracture Crack
11%
Indentation Modulus
11%
Mixed Compositions
7%
Damage Resistance
7%
Al2O
6%
Organic Linkers
5%
Beam Method
5%
Compositional Trends
5%
Elastic Modulus Ratio
5%
Echography
5%
Transitional Behavior
5%
Fracture Surface Energy
5%
Preferential Breakage
5%
SiO2 Content
5%