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Micromechanical analysis of quantum dot-embedded smart nanocomposite materials
Arif Alam, Gobinda C. Saha,
Alexander L. Kalamkarov
Chemistry
科研成果
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期刊稿件
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同行评审
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引用 (Scopus)
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探究 'Micromechanical analysis of quantum dot-embedded smart nanocomposite materials' 的科研主题。它们共同构成独一无二的指纹。
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Keyphrases
Quantum Dots
100%
Smart Nanocomposites
100%
Micromechanical Analysis
100%
Nanocomposite Materials
100%
Finite Element Method
50%
Numerical Model
50%
Governing Equation
50%
Volume Fraction
50%
Micromechanical Modeling
50%
Fiber Reinforced Polymer
50%
Analytical Model
50%
Elastic Properties
50%
Dielectric Properties
50%
Asymptotic Homogenization
50%
Cell Problem
50%
Homogenization Method
50%
Electric Potential
50%
Potential Field
50%
Problem Formulation
50%
Effective Material Properties
50%
Piezoelectric Properties
50%
Material Component
50%
Polymer Quantum Dots
50%
Material Structure
50%
Displacement Potential
50%
ABAQUS Finite Element
50%
ZnO Quantum Dots
50%
Anisotropic Quantum Dot
50%
Interest Structure
50%
Laminated Structure
50%
3D Materials
50%
Active Constituents
50%
Reinforced Polymer Nanocomposites
50%
Engineering
Nanocomposite
100%
Quantum Dot
100%
Micromechanical Analysis
100%
Finite Element Method
25%
Numerical Model
25%
Illustrates
25%
Dielectrics
25%
Analytical Model
25%
Fiber-Reinforced Polymer
25%
Anisotropic
25%
Constituent Material
25%
Piezoelectric
25%
Micromechanical Model
25%
Electric Potential
25%
Boundary Condition
25%
Laminated Structure
25%
Problem Formulation
25%
Polymer Fiber
25%
Material Science
Nanocomposites
100%
Quantum Dot
100%
Finite Element Method
25%
Reinforced Plastic
25%
Volume Fraction
25%
Materials Property
25%
Homogenization
25%
ZnO
25%
Elastic Property
25%
Dielectric Property
25%
Materials Structure
25%
Piezoelectric Property
25%
Polymer Nanocomposites
25%