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Thermoresistive mechanisms of carbon nanotube/polymer composites
M. Cen-Puc
,
A. I. Oliva-Avilés
, F. Avilés
*
*
Corresponding author for this work
Anahuac Mayab University
Centro de Investigacion Cientifica de Yucatan
Research output
:
Contribution to journal
›
Article
›
peer-review
42
Scopus citations
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Keyphrases
Carbon Nanotubes
100%
Thermoresistive
100%
Carbon Nanotube-polymer Composites
100%
Thermal Expansion
33%
Electrical Resistance
22%
Thermoresistivity
22%
Low Carbon
22%
Increased Temperature
11%
Polymer Composites
11%
Positive Temperature Coefficient of Resistivity
11%
High TCR
11%
Above Room Temperature
11%
Dominant Role
11%
Finite Element Model
11%
Modeling Approach
11%
Nanotube Separation
11%
Thermal Activation
11%
Tunnel Model
11%
Freezing Temperature
11%
Electronic Conduction
11%
Effective Medium
11%
Volume Fraction
11%
Resistance Increase
11%
High Carbon
11%
Tunneling
11%
Separation Distance
11%
Negative Temperature Coefficient of Resistance
11%
Material Science
Carbon Nanotube
100%
Polymer Composite
100%
Thermal Expansion
27%
Electrical Resistance
18%
Finite Element Modeling
9%
Dilution
9%
Volume Fraction
9%
Composite Material
9%
Engineering
Carbon Nanotube
100%
Tunnel Construction
18%
Electrical Resistance
18%
Electric Resistance
18%
Room Temperature
9%
Positive Temperature Coefficient
9%
Temperature Coefficient
9%
T Cell Receptor
9%
Finite Element Modeling
9%
Thermal Model
9%
Separation Distance
9%
Dilution
9%
Broad Range
9%
Freezing Temperature
9%
Paramount Role
9%