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Nanoscale Prediction of the Thermal, Mechanical, and Transport Properties of Hydrated Clay on 10
6
- and 10
15
-Fold Larger Length and Time Scales
Xiaojin Zheng,
Ian C. Bourg
Civil & Environmental Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Scopus citations
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Dive into the research topics of 'Nanoscale Prediction of the Thermal, Mechanical, and Transport Properties of Hydrated Clay on 10
6
- and 10
15
-Fold Larger Length and Time Scales'. Together they form a unique fingerprint.
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Material Science
Nanoparticle
100%
Hydraulics
100%
Radioactive Waste
66%
Chemical Property
33%
Density
33%
Thermal Expansion
33%
Composite Material
33%
Liquid Crystal
33%
Thermal Conductivity
33%
Materials Property
33%
Diffusivity
33%
Fluid Flow
33%
Nanocomposites
33%
Portland Cement
33%
Thermal Property
33%
Energy Storage Material
33%
Chemical Engineering
Nanoparticle
100%
Specific Heat
33%
Fluid Flow
33%
Diffusion
33%
Thermal Conductivity
33%
Engineering
Clay Nanoparticles
100%
Thermal Hydraulics Fundamental
50%
Keyphrases
Thermal Hydraulic Processes
50%
Earth and Planetary Sciences
Nanocomposite
50%