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Fatigue crack growth of SiC particle reinforced metal matrix composites
Nikhilesh Chawla, V. V. Ganesh
Materials Science and Engineering
Chemical Engineering
Engineering of Matter, Transport and Energy, School for (IAFSE-SEMTE)
Engineering, Ira A. Fulton Schools of (IAFSE)
Research output
:
Contribution to journal
›
Article
›
peer-review
43
Scopus citations
Overview
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Mathematics
Metal Matrix Composites
100%
Fatigue Crack Growth
97%
Fatigue
78%
Reinforcement
37%
Microstructure
32%
Resistance
20%
Composite
17%
Particle Size
14%
Crack Growth
13%
Volume Fraction
12%
Stiffness
10%
Defects
9%
Two Parameters
8%
Inclusion
7%
Costs
7%
Dependent
6%
Engineering & Materials Science
Fatigue crack propagation
59%
Fatigue of materials
39%
Metals
37%
Composite materials
33%
Reinforcement
23%
Microstructure
19%
Particle size
9%
Volume fraction
8%
Crack propagation
8%
Stiffness
6%
Defects
6%
Temperature
3%
Costs
3%
Chemical Compounds
Metal Matrix Composites
72%
Microstructure
38%
Resistance
24%
Composite Material
19%
Ceramic
14%
Alloy
13%
Volume
11%