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Conclusions and Future Scope

Sharma, Sumit

Attempt has been made to predict the normal and shear elastic moduli ( $E_{11}^{'}, E_{22}^{'}, G_{23}^{'}, and G_{12}^{'}$ ) and loss factors (η ₁₁, η ₂₂, η ₂₃, and η ₁₂) for vapor grown carbon fiber‐polypropylene (VGCF/PP) nanocomposites using Continuum methods such as finite element method (FEM) modeling and micromechanics approaches namely Eshelby's model, Mori–Tanaka model, Chow model, Hashin–Shtrikman model, Cox model, Lielens model, Self‐consistent model, and modified Halpin–Tsai/Finegan model. Comparative study of dynamic behavior of VGCF/PP nanocomposites considering it as aligned short fiber nanocomposites in respect of fiber volume fraction and aspect ratio has been carried out. Experimental measurement of longitudinal modulus ( $E_{11}^{'}$ ) and loss factor (η ₁₁) has been made.

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Conclusions and Future Scope

Sharma, Sumit

Attempt has been made to predict the normal and shear elastic moduli ( $E_{11}^{'}, E_{22}^{'}, G_{23}^{'}, and G_{12}^{'}$ ) and loss factors (η ₁₁, η ₂₂, η ₂₃, and η ₁₂) for vapor grown carbon fiber‐polypropylene (VGCF/PP) nanocomposites using Continuum methods such as finite element method (FEM) modeling and micromechanics approaches namely Eshelby's model, Mori–Tanaka model, Chow model, Hashin–Shtrikman model, Cox model, Lielens model, Self‐consistent model, and modified Halpin–Tsai/Finegan model. Comparative study of dynamic behavior of VGCF/PP nanocomposites considering it as aligned short fiber nanocomposites in respect of fiber volume fraction and aspect ratio has been carried out. Experimental measurement of longitudinal modulus ( $E_{11}^{'}$ ) and loss factor (η ₁₁) has been made.

Conclusions and Future Scope

Sharma, Sumit

Attempt has been made to predict the normal and shear elastic moduli ( $E_{11}^{'}, E_{22}^{'}, G_{23}^{'}, and G_{12}^{'}$ ) and loss factors (η ₁₁, η ₂₂, η ₂₃, and η ₁₂) for vapor grown carbon fiber‐polypropylene (VGCF/PP) nanocomposites using Continuum methods such as finite element method (FEM) modeling and micromechanics approaches namely Eshelby's model, Mori–Tanaka model, Chow model, Hashin–Shtrikman model, Cox model, Lielens model, Self‐consistent model, and modified Halpin–Tsai/Finegan model. Comparative study of dynamic behavior of VGCF/PP nanocomposites considering it as aligned short fiber nanocomposites in respect of fiber volume fraction and aspect ratio has been carried out. Experimental measurement of longitudinal modulus ( $E_{11}^{'}$ ) and loss factor (η ₁₁) has been made.

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Titel:

Conclusions and Future Scope

Beteiligte:

Sharma, Sumit (Autor:in)

Erschienen in:

Mechanics of Particle‐ and Fiber‐Reinforced Polymer Nanocomposites ; 299-300

Erscheinungsdatum:

30.03.2021

Format / Umfang:

2 pages

ISBN:

9781119653622 , 9781119653653

DOI:

https://doi.org/10.1002/9781119653653.ch9

Medientyp:

Aufsatz/Kapitel (Buch)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

elastic moduli , micromechanics , molecular dynamics , loss factor

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