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A quantitative phase-field model of gas bubble evolution in UO
2
Zhihua Xiao
, Yafeng Wang
, Shenyang Hu
, Yulan Li
, San Qiang Shi
The Hong Kong Polytechnic University
Department of Mechanical Engineering
Research output
:
Journal article publication
›
Journal article
›
Academic research
›
peer-review
23
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Citations (Scopus)
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2
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Keyphrases
Phase-field Model
100%
Quantitative Phase
100%
Gas Bubble Evolution
100%
Gas Atom
100%
Nuclear Fuel
66%
High Temperature
33%
Thermodynamics
33%
Internal Pressure
33%
Generation Rate
33%
Material Parameters
33%
Gas Bubble
33%
Formation Energy
33%
Material Use
33%
Elastic Interaction
33%
Thermodynamic Equilibrium
33%
Dilute Concentration
33%
Bubble Growth
33%
Multiple Bubbles
33%
Equilibrium Concentration
33%
Free Energy Density
33%
Gas Bubble Growth
33%
Elastic Interaction Energy
33%
Bubble Evolution
33%
Substitutional Site
33%
Noble Gas Atom
33%
Single Bubble
33%
Engineering
Phase Field
100%
Field Model
100%
Gas Bubble
100%
Gas Atom
100%
Bubble Growth
50%
Elastic Interaction
50%
Nuclear Fuel
50%
Material Parameter
25%
Equilibrium Concentration
25%
Formation Energy
25%
Substitutional Site
25%
Single Bubble
25%
Thermodynamic Equilibrium
25%
Internal Pressure
25%
Field Method
25%
Interaction Energy
25%
Flux Density
25%
Material Science
Phase Field Model
100%
Uranium Dioxide
100%
Nuclear Fuel
100%
Inert Gas
50%
Energy Density
50%