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Load transfer during transformation superplasticity of Ti-6Al-4V/TiB whisker-reinforced composites
C. Schuh,
D. C. Dunand
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Corresponding author for this work
Materials Science and Engineering
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peer-review
33
Scopus citations
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Engineering & Materials Science
Superplasticity
86%
Volume fraction
53%
Superplastic deformation
46%
Composite materials
34%
Thermal cycling
34%
Titanium alloys
31%
Tensile stress
30%
Elongation
27%
Reinforcement
23%
Metals
19%
Hot Temperature
14%
Chemical Compounds
Superplasticity
100%
Thermal Cycling
38%
Chemical Transformation
37%
Metal Matrix Composites
37%
Titanium Alloy
36%
Volume
34%
Composite Material
29%
Strain
20%
Physics & Astronomy
superplasticity
76%
composite materials
36%
cycles
26%
metal matrix composites
24%
reinforcement
21%
titanium alloys
21%
tensile stress
20%
elongation
18%
trends
15%
matrices
10%