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2020 | OriginalPaper | Buchkapitel

Applicability of Rule of Mixtures to Estimate Effective Properties of Nanocomposite Materials

verfasst von : Muhammad Lutfi Mat Rodzi, Muhammed Fadzli Ismail, Mulia Minhat

Erschienen in: Proceedings of International Conference of Aerospace and Mechanical Engineering 2019

Verlag: Springer Singapore

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Abstract

A rule of mixtures is employed and modified to examine the effective elastic properties of a unidirectional composite lamina reinforced with nanostructure-hybrid fibers. Such fiber system is designated when nanostructure such as nanowires or carbon nanotubes are radially grown on the surface of primary fiber. When combines with matrix, a complex three-phase composite with enhanced elastic properties is expected. Herein, the applicability of this simple micromechanics method to reliably estimate the effective properties of such advanced novel composite material is assessed. The results demonstrated that the method is capable of modeling the effects on elastic properties of a composite due to the presence of nanostructure. However, in light of published experimental data and other micromechanics results, the proposed method is found to be at best, applicable for a composite that has a very low fiber volume fraction only except when an axial Young’ modulus is predicted.

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Sager RJ, Klein PJ, Lagoudas DC, Zhang Q, Liu J, Dai L, Baur JW (2009) Effect of carbon nanotubes on the interfacial shear strength of T650 carbon in an epoxy matrix. Compos Sci Tech 69:898–9004

Lin Y, Ehlert G, Sodano HA (2009) Increased interface strength in carbon fiber composites through a ZnO nanowire interphase. Adv Funct Mater 19(16):2654–2660

Galan U, Lin Y, Ehlert GJ, Sodano HA (2011) Effect of ZnO nanowire morphology on the interfacial strength of nanowire coated carbon fibers. Compos Sci Tech 71(7):946–954

Steiner SA, Li R, Wardle BL (2013) Circumventing the mechanochemical origins of strength loss in synthesis of hierarchical carbon fibers. ACS Appl Mater Interfaces 5(11):4892–4903

Hart AHC, Koizumi R, Hamel J, Owuor PS, Ito Y, Ozden S (2017) Velcro-inspired SiC fuzzy fibers for aerospace applications. ACS Appl Mater Interfaces 9(15):17342–17350

Du Y, Fu C, Gao Y, Liu Y, Xing L, Zhao F (2017) Carbon fibers/ZnO nanowires hybrid nanogenerator based on an interface insulating barrier. RSC Advan 7:21452–21458

Nayarana KJ, Burela RG (2018) A review of recent research on multifunctional composite materials and structures with their applications. Mater Today Proc 5(2,1):5580–5590

Liu Y, Zhang C, Zhang X (2018) Design, fabrication and application of multi-scale, multi-functional nanostructured carbon fibers. In: Khanna, R., Cayumil, R. (eds.) Recent Developments in the field of carbon fibers. Intech Open, pp 33–49

Bezzon VDN, Montaheiro TLA, Menezes BRC, Ribas RG, Righetti VAN, Rodrigues KF, Thim GP (2019) Carbon nanostructure-based sensors: A brief review on recent advances. Adv Mater Sci Eng 1–21

10.

Sebastian J, Schehl N, Bouchard M, Boehle M, Li L, Lagounov A, Kafdi K (2014) Health monitoring of structural composites with embedded carbon nanotubes coated glass fiber sensors. Carbon 66:191–200

11.

Ray, M.C.: Smart fuzzy fiber-reinforced piezoelectric composites. In: Meguid, S.A (ed.) Advances in Nanocomposites: Modeling, characterization and applications, pp. 126–150. Springer, Heidelberg (2016)

12.

Malakooti MH, Patterson BA, Hwang HS, Sodano HA (2016) ZnO nanowire interface for high strength multifunctional composites with embedded energy harvesting. Energy Environ Sci 9(2):634–643

13.

Jones RM (1999) Mechanics of composite materials, 2nd edn. Taylor & Francis, Philadelphia

14.

Daniel IM, Ishai O (2005) Engineering mechanics of composite materials, 2nd edn. Oxford, New York

15.

Barberro EJ (2011) Introduction to composite materials design, 2nd edn. CRC Press, Florida

16.

Aboudi J, Arnold S, Bednarcyk B (2012) Micromechanics of composite materials. Elsevier, Oxford

17.

Gibson RF (2016) Principles of composite materials mechanics, 4th edn. CRC Press, Florida

18.

Vasiliev VV, Morozov EV (2013) Advanced mechanics of composite materials and structural elements. Elsevier, Oxford

19.

Eshelby JD (1956) The continuum theory of lattice defects. Solid States Phys 3:79–144

20.

Christensen RM, Lo KH (1979) Solutions for effective shear effective properties in three phase sphere and cylinder models. J Mech Phys Solids 27(4):315–330MATH

21.

Christensen RM (2005) Mechanics of composite materials, 2nd edn. Dover, New York

22.

Christensen RM (1990) A critical evaluations of a class of micromechanics models. J Mech Phys Solids 38(3):379–404

23.

Benveniste Y (2008) Revisiting the generalized self-consistent scheme: clarification of some aspects and a new formulation. J Mech Phys Solids 56(10):2984–3002MathSciNetMATH

24.

Gusev AA, Lurie SA (2009) Loss amplification effect in multiphase materials with viscoelastic interfaces. Macromolecules 42:5372–5377

25.

Lurie S, Minhat M (2014) Application of generalized self-consistent method to predict the effective properties of bristled fiber composites. Composites B 61:26–40

26.

Lurie S, Minhat M, Tuchkova N (2015) Estimations of effective dynamics properties of bristled fiber composite materials based on a self-consistent Eshelby method. J Eng Mech 95(1):7–29MathSciNetMATH

27.

Lurie S, Minhat M, Tuchkova N, Soliaev J (2014) On remarkable loss amplification mechanism in fiber reinforced laminated composite materials. Appl Compos Mater 21(1):179–196

28.

Ehlert GJ (2012) Development of a zinc oxide nanowire interphase for enhanced structural composites. Ph.D. thesis, University of Florida

Titel: Applicability of Rule of Mixtures to Estimate Effective Properties of Nanocomposite Materials
verfasst von: Muhammad Lutfi Mat Rodzi
Muhammed Fadzli Ismail
Mulia Minhat
Verlag: Springer Singapore
Buch: Proceedings of International Conference of Aerospace and Mechanical Engineering 2019
Print ISBN: 978-981-15-4755-3

Electronic ISBN: 978-981-15-4756-0

Copyright-Jahr: 2020
DOI: https://doi.org/10.1007/978-981-15-4756-0_17

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