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Tribology Letters

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01.10.2013 | Original Paper

Tribological and Mechanical Behaviour of Epoxy/Nanoclay Composites

verfasst von: M. Esteves, A. Ramalho, J. A. M. Ferreira, J. P. Nobre

Erschienen in: Tribology Letters | Ausgabe 1/2013

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Abstract

Due to the nature and availability of nanoclay material, its application as reinforcement of composite materials is well justified. In this work, organo-montmorillonite filler with an epoxy resin matrix was characterised, regarding its mechanical and tribological behaviour. The influence of water ageing was analysed concerning its mechanical properties. Tribological tests were performed in dry and water lubricated environments. The mechanical properties of both the epoxy resin and composite specimens tend to decrease with water ageing. The negative influence of particle agglomeration was verified in the mechanical and tribological properties, especially with high content of filler material.

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Park, J.H., Jana, S.C.: The relationship between nano- and micro-structures and mechanical properties in PMMA-epoxy-nanoclay composite. Polymer 44(7), 2091–2100 (2003)CrossRef

Zhou, Y., Pervin, F., Biswas, M.A., Rangari, V.K., Jeelani, S.: Fabrication and characterization of montmorillonite clay-filled SC-15 epoxy. Mater. Lett. 60(7), 869–873 (2006)CrossRef

Ahmadi, S.J., Huang, Y.D., Li, W.: Review, synthesis routes, properties and future application of polymer-layered silicate nanocomposites. J. Mater. Sci. 39, 1919–1925 (2004)CrossRef

Jia, Q.M., Zheng, M., Xu, C.Z., Chen, H.X.: The mechanical properties and tribological behavior of epoxy resin composites modified by different shape nanofillers. Polym. Adv. Technol. 17, 168–173 (2006)CrossRef

Shi, H.Z., Lan, T., Pinnavaia, T.J.: Interfacial effects on the reinforcement properties of polymer–organoclay nanocomposites. Chem. Mater. 8, 1584–1587 (1996)CrossRef

Wang, L., Wang, K., Chen, L., Zhang, Y., He, C.: Preparation, morphology and thermal/mechanical properties of epoxy/nanoclay composite. Compos. Part A Appl. Sci. Manuf. 37, 1890–1896 (2006)CrossRef

Boo, W.J., Sun, L., Liu, J., Moghbelli, E., Clearfield, A., Sue, H., Pham, H., Verghese, N.: Effect of nanoplatelet dispersion on mechanical behavior of polymer nanocomposites. J. Polym. Sci. B Polym. Phys. 45, 1459–1469 (2007)CrossRef

Jacobs, O., Xu, W., Schädel, B., Wu, W.: Wear behaviour of carbon nanotube reinforced epoxy resin composites. Tribol. Lett. 23(1), 65–75 (2006)

Messersmith, P.B., Giannelis, E.P.: Synthesis and barrier properties of poly (ε-caprolactone)-layered silicate nanocomposites. J. Polym. Sci. 33, 1047–1057 (1995)CrossRef

10.

Liu, X.H., Wu, Q.J.: Polyamide 66/clay nanocomposites via melt intercalation. Macromol. Mater. Eng. 287, 180–186 (2002)CrossRef

11.

Becker, O., Varley, R.J., Simon, G.P.: Thermal stability and water uptake of high performance epoxy layered silicate nanocomposites. Euro. Polym. J. 40(1), 187–195 (2004)CrossRef

12.

Wang, L., Wang, K., Chen, L., He, C., Zhang, Y.: Hydrothermal effects on the thermomechanical properties of high performance epoxy/clay nanocomposites. Polym. Eng. Sci. 46(2), 215–221 (2006)CrossRef

13.

Brostow, W., Kovačević, V., Vrsaljko, D., Whitworth, J.: Tribology of polymers and polymer-based composites. J. Mater. Educ. 32(5–6), 273–290 (2010)

14.

Rong, M.Z., Zhang, M.Q., Liu, H., Zeng, H., Wetzel, B., Friedrich, K.: Microstructure and tribological behavior of polymeric nanocomposites. Ind. Lubr. Tribol. 53, 72–77 (2001)CrossRef

15.

Czichos, H., Klaffke, D., Santner, E., Woydt, M.: Advances in tribology: the materials point of view. Wear 190, 155–161 (1995)CrossRef

16.

Friedrich, K., Lu, Z., Hager, A.M.: Recent advances in polymer composites’ tribology. Wear 190, 139–144 (1995)CrossRef

17.

Jawahar, P., Gnanamoorthy, R., Balasubramanian, M.: Tribological behaviour of clay—thermoset polyester nanocomposites. Wear 261, 835–840 (2006)CrossRef

18.

Dong, B., Yang, Z., Huang, Y., Li, H.-L.: Study on tribological properties of multi-walled carbon nanotubes/epoxy resin nanocomposites. Tribol. Lett. 20(3–4), 251–254 (2005)

19.

Chang, L., Zhang, Z., Breidt, C., Friedrich, K.: Tribological properties of epoxy nanocomposites I. Enhancement of the wear resistance by nano-TiO2 particles. Wear 258, 141–148 (2005)CrossRef

20.

McCook, N.L., Boesl, B., Burris, D.L., Sawyer, W.G.: Epoxy, ZnO, and PTFE nanocomposite: friction and wear optimization. Tribol. Lett. 22(3), 253–257 (2006)

21.

Zhang, M.Q., Ronga, M.Z., Yu, S.L., Wetzel, B., Friedrich, K.: Effect of particle surface treatment on the tribological performance of epoxy based nanocomposites. Wear 253, 1086–1093 (2002)CrossRef

22.

Wetzela, B., Hauperta, F., Zhang, M.Q.: Epoxy nanocomposites with high mechanical and tribological performance. Compos. Sci. Technol. 63, 2055–2067 (2003)CrossRef

23.

Vasconcelos, P.V., Lino, F.J., Baptista, A.M., Neto, R.J.L.: Tribological behaviour of epoxy based composites for rapid tooling. Wear 260, 30–39 (2006)CrossRef

24.

Jia, Q.L., Zhang, M.Q., Rong, M.Z., Wetzel, B., Friedrich, K.: Friction and wear of epoxy composites containing surface modified SiC nanoparticles. Tribol. Lett. 20(2), (2005)

25.

Neitzel, I., Mochalin, V., Bares, J.A., Carpick, R.W., Erdemir, A., Gogots, Y.: Tribological properties of nanodiamond–epoxy composites. Tribol. Lett. 47, 195–202 (2012)CrossRef

26.

Ha, S.R., Rhee, K.Y.: Effect of surface-modification of clay using 3-aminopropyltriethoxysilane on the wear behavior of clay/epoxy nanocomposites. Colloids Surf. A Physicochem. Eng. Aspects 322, 1–5 (2008)CrossRef

27.

Lam, C.K., Lau, K.T.: Tribological behavior of nanoclay/epoxy composites. Mater. Lett. 61, 3863–3866 (2007)CrossRef

28.

Rashmi, Renukappa, N.M., Suresha, B., Devarajaiah, R.M., Shivakumar, K.N.: Dry sliding wear behaviour of organo-modified montmorillonite filled epoxy nanocomposites using Taguchi’s techniques. Mater. Des. 32, 4528–4536 (2011)CrossRef

29.

Santos, D.G., Ferreira, J.A.M., Capela, C., Costa, J.D.M.: A study of the fatigue behavior on nanoclay filled epoxy composites. In: Proceedings of XIII Portuguese Conference on Fracture, pp. 307–312 (2012)

30.

ASTM: Standard test method for water absorption of plastics. s.l., D570–98 (1998)

31.

ASTM: Standard test method for short-beam strength of polymer matrix composite materials and their laminates. s.l., D 2344/D 2344M (2000)

32.

ASTM: Standard test method for linearly reciprocating Ball-on-Flat Sliding Wear. s.l., G133–95 (2002)

33.

Lui, L., Qi, Z., Zhu, X.: Studies on nylon 6/clay nanocomposites by melt intercalation process. J. Appl. Polym. Sci. 71, 1133–1138 (1999)CrossRef

34.

Kim, J.-K, Hu, C., Woo, R.S.C., Sham, M.-L: Moisture barrier characteristics of organoclay–epoxy nanocomposites. Compos. Sci. Technol. 65(5), 805–813 (2005)CrossRef

35.

Srinath, G., Gnanamoorthy, R.: Sliding wear performance of polyamide 6-clay nanocomposites in water. Compos. Sci. Technol. 67, 399–405 (2007)CrossRef

36.

Becker, O., Varley, R.J., Simon, G.P.: Thermal stability and water uptake of high performance, epoxy layered silicate nanocomposites. Eur. Polym. J. 40, 187–195 (2004)CrossRef

37.

Chow, W.S.: Water absorption of epoxy/glass fiber/organo-montmorillonite nanocomposites, eXPRESS. Polym. Lett. 1(2), 104–108 (2007)CrossRef

38.

Lam, C., Cheung, H., Lau, K., Zhou, L., Ho, M., Hui, D.: Cluster size effect in hardness of nanoclay/epoxy composites. Compos. Part B 36, 263–269 (2005)CrossRef

39.

Wang, Z.Z., Gu, P., Zhang, Z., Gu, L., Xu, Y.Z.: Mechanical and tribological behavior of epoxy/silica nanocomposites at the micro/nano scale. Tribol. Lett. 42, 185–191 (2011)CrossRef

40.

Durand, J.M., Vardavoulias, M., Jeandin, M.: Role of reinforcing ceramic particles in the wear behaviour of polymer-based model composites. Wear 181–183, 833–839 (1995)CrossRef

41.

Adamson, M.J.: Thermal expansion and swelling of cured epoxy resin used in graphite/epoxy composite materials. J. Mater. Sci. 15, 1736–1745 (1980)CrossRef

Titel: Tribological and Mechanical Behaviour of Epoxy/Nanoclay Composites
verfasst von: M. Esteves
A. Ramalho
J. A. M. Ferreira
J. P. Nobre
Publikationsdatum: 01.10.2013
Verlag: Springer US
Erschienen in: Tribology Letters / Ausgabe 1/2013
Print ISSN: 1023-8883
Elektronische ISSN: 1573-2711
DOI: https://doi.org/10.1007/s11249-013-0174-2

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