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Applied Composite Materials
Erschienen in: Applied Composite Materials 2/2018

18.07.2017

Experimental Study and Numerical Modelling of Low Velocity Impact on Laminated Composite Reinforced with Thin Film Made of Carbon Nanotubes

verfasst von: A. El Moumen, M. Tarfaoui, O. Hassoon, K. Lafdi, H. Benyahia, M. Nachtane

Erschienen in: Applied Composite Materials | Ausgabe 2/2018

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Abstract

In this work, polymer laminated composites based on Epon 862 Epoxy resin, T300 6 k carbon fibers and carbon nanotubes (CNTs) were tested with the aim to elucidate the effect of CNTs on impact properties including impact force and capacity to absorb impact energy. The polymer matrix was reinforced by a random distribution of CNTs with fraction ranging from 0.5 to 4.wt%. Composite panels were manufactured by using the infusion process. Taylor impact test was used to obtain the impact response of specimens. Projectile manufactured from a high strength and hardened steel with a diameter of 20 mm and 1.5 kg of mass was launched by a compressed gas gun within the velocity of 3 m/s. Impact force histories and absorbed energy of specimens were recorded. A numerical model was employed to simulate the impact performance. This model has been accomplished by forming a user established subroutine (VUMAT) and executing it in ABAQUS software. Finally, the effect of CNTs amount on dynamic properties of laminated composites was discussed.
Vorheriger Artikel Evaluation of Basalt Fibre Composites for Marine Applications
Nächster Artikel Finite-Element Analysis of Crack Arrest Properties of Fiber Reinforced Composites Application in Semi-Elliptical Cracked Pipelines

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Literatur
1.
Gojny, F.H., Wichmann, M.H.G., Fiedler, B., Bauhofer, W., Schulte, K.: Influence of nano-modification on the mechanical and electrical properties of conventional fiber-reinforced composites. Compos. A-Appl. Sci. 36, 1525–1535 (2005)CrossRef
2.
Tarfaoui, M., Lafdi, K., El Moumen, A.: Mechanical properties of carbon nanotubes based polymer composites. Compos. Part B. 103, 113–121 (2016)CrossRef
3.
El Moumen, A., Tarfaoui, M., Lafdi, K.: Mechanical characterization of carbon nanotubes based polymer composites using indentation tests. Compos. Part B. 114, 1–7 (2017)CrossRef
4.
Garcia, E.J., Wardle, B.L., Hart, A.J., Yamamoto, N.: Fabrication and multifunctional properties of a hybrid laminate with aligned carbon nanotubes grown in situ. Compos. Sci. Technol. 68, 2034–2041 (2008)CrossRef
5.
Warrier, A., Godara, A., Rochez, O., Mezzo, L., Luizi, F., Gorbatikh, L., et al.: The effect of adding carbon nanotubes to glass/epoxy composites in the fiber sizing and/or the matrix. Compos. A-Appl. Sci. 41, 532–538 (2010)CrossRef
6.
Ashrafi, B., Guan, J., Mirjalili, V., Zhang, Y., Chun, L., Hubert, P., Simard, B., Kingston, C.T., Bourne, O., Johnston, A.: Enhancement of mechanical performance of epoxy/carbon fiber laminate composites using single-walled carbon nanotubes. Compos. Sci. Technol. 71, 1569–1578 (2011)CrossRef
7.
Soliman, E., Al-Haik, M., Taha, M.R.: On and off-axis tension behavior of fiber reinforced polymer composites incorporating multi-walled carbon nanotubes. J. Compos. Mater. 46, 1661–1675 (2011)CrossRef
8.
Soliman, E.M., Sheyka, M.P., Taha, M.R.: Low-velocity impact of thin woven carbon fabric composites incorporating multi-walled carbon nanotubes. Int. J. Impact Eng. 47, 39–47 (2012)CrossRef
9.
Kostopoulos, V., Baltopoulos, A., Karapappas, P., Vavouliotis, A., Paipetis, A.: Impact and after-impact properties of carbon fibre reinforced composites enhanced with multi-wall carbon nanotubes. Compos. Sci. Technol. 70, 553–563 (2010)CrossRef
10.
Benyahia, H., Tarfaoui, M., Datsyuk, V., El Moumen, A., Trotsenko, S., Reich, S.: Dynamic properties of hybrid composite structures based multiwalled carbon nanotubes. Compos. Sci. Technol. 148, 70–79 (2017)CrossRef
11.
Laurenzi, S., Pastore, R., Giannini, G., Marchetti, M.: Experimental study of impact resistance in multi-walled carbon nanotube reinforced epoxy. Compos. Struct. 99, 62–68 (2013)CrossRef
12.
Hosur, M.V., Chowdhury, F., Jeelani, S.: Low-velocity impact response and ultrasonic NDE of woven carbon/epoxy–nanoclay nanocomposites. J. Compos. Mater. 41, 2195–2212 (2007)CrossRef
13.
Guo, W., Xue, P., Yang, Y.: Nonlinear progressive damage model for composite laminates used for low-velocity impact. Appl. Math. Mech. 34, 1145–1154 (2013)CrossRef
14.
Hashin, Z.: Failure criteria for undirectional fiber composites. J. Appl. Mech. 31, 223–232 (1980)CrossRef
15.
Wang, S., Wu, L., Ma, L.: Low-velocity impact and residual tensile strength analysis to carbon fiber composite laminates. Mater. Des. 31, 118–125 (2010)CrossRef
16.
Xin, S.H., Wen, H.M.: A progressive damage model for fiber reinforced plastic composites subjected to impact loading. Int. J. Impact Eng. 75, 40–52 (2015)CrossRef
17.
Lapczyk, I., Hurtado, J.A.: Progressive damage modeling in fiber-reinforced materials. Compos. A: Appl. Sci. Manuf. 38, 2333–2341 (2007)CrossRef
18.
El Moumen, A., Tarfaoui, M., Lafdi, K., Benyahia, H.: Dynamic properties of carbon nanotubes reinforced carbon fibers/epoxy textile composites under low velocity impact. Compos. Part B. 125, 1–8 (2017)CrossRef
19.
Hassoon, O.H., Tarfaoui, M., El Moumen, A.: Progressive damage modeling in laminate composites under slamming impact water for naval applications. Compos. Struct. 167, 178–190 (2017)CrossRef
20.
Nachtane, M., Tarfaoui, M., El Moumen, A., Saifaoui, D.: Damage prediction of horizontal axis marine current turbines under hydrodynamic, hydrostatic and impacts loads. Compos. Struct. 170, 146–157 (2017)CrossRef
21.
Tarfaoui, M., El Moumen, A., Lafdi, K.: Progressive damage modeling in carbon fibers/carbon nanotubes reinforced polymer composites. Compos. Part B. 112, 185–195 (2016)CrossRef
22.
Ren, Y., Jiang, H., Ji, W., Zhang, H., Xiang, J., Yuan, F.G.: Improvement of progressive damage model to predicting crashworthy composite corrugated plate. Appl. Compos. Mater. (2017). doi:10.​1007/​s10443-017-9610-z
23.
Wang, H., Ramakrishnan, K.R., Shankar, K.: Experimental study of the medium velocity impact response of sandwich panels with different cores. Mater. Des. 99, 68–82 (2016)CrossRef
Metadaten
Titel
Experimental Study and Numerical Modelling of Low Velocity Impact on Laminated Composite Reinforced with Thin Film Made of Carbon Nanotubes
verfasst von
A. El Moumen
M. Tarfaoui
O. Hassoon
K. Lafdi
H. Benyahia
M. Nachtane
Publikationsdatum
18.07.2017
Verlag
Springer Netherlands
Erschienen in
Applied Composite Materials / Ausgabe 2/2018
Print ISSN: 0929-189X
Elektronische ISSN: 1573-4897
DOI
https://doi.org/10.1007/s10443-017-9622-8

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