Keyphrases
Ambient Temperature
100%
Elevated Temperature
100%
Ceramic Matrix Composites
100%
Alumina Fiber
100%
Fiber-reinforced
100%
Cyclic Fatigue
100%
Mullite Ceramics
100%
Damage Assessment
100%
Mullite
50%
Fiber Fracture
50%
Forced Resonance
50%
Glassy State
50%
Resonance Method
50%
Damage Evaluation
25%
Room Temperature
25%
Elastic Modulus
25%
Delamination
25%
Crack Formation
25%
Final Failure
25%
Cyclic Sliding
25%
Acoustic Emission Technique
25%
Damage Progression
25%
Damage Initiation
25%
Nondestructive Detection
25%
Fiber-matrix Interface
25%
Interfacial Failure
25%
Fatigue Damage Evolution
25%
Multiple Cracks
25%
Evaluation Behavior
25%
Internal Friction
25%
Acoustic Emission Monitoring
25%
Change Detection
25%
Fatigue Performance
25%
Microstructural Observation
25%
Engineering
Aluminum Oxide
100%
Elevated Temperature
100%
Cyclic Fatigue
100%
Damage Assessment
100%
Acoustic Emission
50%
Glassy Phase
50%
Fibre Fracture
50%
Room Temperature
25%
Modulus of Elasticity
25%
Progression
25%
Final Failure
25%
Damage Evolution
25%
Detection Technique
25%
Fatigue Damage
25%
Fatigue Performance
25%
Internal Friction
25%
Crack Formation
25%
Multiple Crack
25%
Damage Initiation
25%
Matrix Interface
25%
Strong Bonding
25%
Delamination
25%
Material Science
Aluminum Oxide
100%
Ceramic Matrix Composites
100%
Composite Material
100%
Elastic Moduli
33%
Crack Formation
33%
Detection Technique
33%
Internal Friction
33%
Fatigue Damage
33%
Damage Evolution
33%
Delamination
33%