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Copper-zirconium tungstate composites exhibiting low and negative thermal expansion influenced by reinforcement phase transformations
Dorian K. Balch,
David C. Dunand
Materials Science and Engineering
Research output
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Contribution to journal
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Article
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peer-review
58
Scopus citations
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INIS
thermal expansion
100%
matrices
50%
phase transformations
50%
copper
50%
pressing
50%
high pressure
25%
metals
25%
x-ray diffraction
25%
temperature range
25%
length
25%
transformations
25%
particles
25%
expansion
25%
contraction
25%
synchrotrons
25%
temperature dependence
25%
hot isostatic pressing
25%
depressurization
25%
zirconium tungstates
25%
Material Science
Thermal Expansion
75%
Cold Isostatic Pressing
50%
Composite Material
50%
Temperature
50%
Copper
50%
Diffraction Measurement
25%
Zirconium
25%
Synchrotron X-Ray Diffraction
25%
Negative Thermal Expansion
25%
Metal Matrix Composite
25%
Hot Isostatic Pressing
25%
Tungstate
25%
Reinforcement
25%
Expansion
25%
Particle
25%
Shrinkage
25%