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Micromechanics of failure in metal matrix composites
A. A. Rubeinstein
,
P. Wang
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peer-review
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Keyphrases
Process Zone
100%
Metal Matrix Composites
100%
Void Growth
100%
Micromechanics of Failure
100%
Fracture Resistance
33%
Analytical Method
33%
Analytical Model
33%
Modeling Techniques
33%
Discrete Distribution
33%
Micromechanics
33%
Elastic Fibers
33%
Fracture Mechanics
33%
Elastic Deformation
33%
Boundary Value Problem
33%
Resistance Analysis
33%
Zone Concept
33%
Plastic Matrix
33%
Reinforcing Fibers
33%
Plastic Yielding
33%
Analytical Formulation
33%
Layered Composite
33%
Classical Fracture Mechanics
33%
Fracture Process Zone
33%
Exact Analytical Solution
33%
Engineering
Micromechanics
100%
Metal Matrix Composite
100%
Process Zone
100%
Void Growth
75%
Individual Segment
25%
Elastic Deformation
25%
Analytical Model
25%
Boundary Value
25%
Plastic Matrix
25%
Fracture Strength
25%
Fracture Resistance
25%
Fracture Mechanics
25%
Material Science
Metal Matrix Composite
100%
Micromechanics
100%
Void Growth
100%
Composite Material
100%
Fracture Toughness
33%
Analytical Method
33%
Fracture Mechanics
33%
Elastic Deformation
33%