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Effect of laminate stacking sequence on the high frequency fatigue behavior of SCS-6 fiber-reinforced Si
3
N
4
matrix composites
Nikhilesh Chawla
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Scopus citations
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Dive into the research topics of 'Effect of laminate stacking sequence on the high frequency fatigue behavior of SCS-6 fiber-reinforced Si
3
N
4
matrix composites'. Together they form a unique fingerprint.
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Physics & Astronomy
laminates
100%
ceramic matrix composites
88%
composite materials
65%
fibers
60%
fiber-matrix interfaces
59%
matrices
58%
sliding
40%
heating
27%
heat generation
25%
hot pressing
24%
encounters
22%
silicon carbides
20%
stiffness
18%
friction
18%
energy dissipation
17%
hysteresis
16%
damage
15%
low frequencies
15%
cycles
14%
temperature
12%
Engineering & Materials Science
Laminates
97%
Fatigue of materials
74%
Fibers
73%
Ceramic matrix composites
70%
Composite materials
62%
Heating
25%
Microcracking
24%
Hot pressing
20%
Heat generation
19%
Silicon carbide
19%
Hysteresis
17%
Energy dissipation
15%
Temperature
14%
Stiffness
12%
Friction
12%
Chemical Compounds
Composite Material
53%
Ceramic
30%
Fiber
25%
Silicon Carbide
14%
Dissipation
14%
Hysteresis
13%
Heat
9%
Energy
6%