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2019 | OriginalPaper | Chapter

Hybrid Epoxy Composites Reinforced with Flax Fiber and Basalt Fiber

Authors : Danuta Matykiewicz, Maciej Bogusławski

Published in: Advances in Manufacturing II

Publisher: Springer International Publishing

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Abstract

The aim of this work was to evaluate the influence of basalt and flax fiber content on the thermo-mechanical and mechanical properties of epoxy composites. The mechanical properties were assessed by means of static tensile test and Charpy impact strength method. The thermo-mechanical properties of the composites were determined through dynamic mechanical thermal analysis (DMTA). Moreover, hardness was examined with Shore D durometer. The thermal stability was determined by thermogravimetric analyses (TGA) in inert atmospheres. The increase flax fiber content led to decrease the tensile strength value, elasticity modulus and storage modulus value of the epoxy composites. The most advantageous mechanical and thermomechanical properties were obtained for the composites containing six layer of the basalt fiber and then hybrid composites containing four layer basalt fiber and two layer flax fiber.

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Literature
1.
go back to reference Rivera-Gómez, C., Galán-Marín, C., Bradley, F.: Analysis of the influence of the fiber type in polymer matrix/fiber bond using natural organic polymer stabilizer. Polymers 6, 977–994 (2014)CrossRef Rivera-Gómez, C., Galán-Marín, C., Bradley, F.: Analysis of the influence of the fiber type in polymer matrix/fiber bond using natural organic polymer stabilizer. Polymers 6, 977–994 (2014)CrossRef
2.
go back to reference Huda, M.S., Lawrence, T., Drzal, T., Mohanty, A.K., Misra, M.: Effect of chemical modifications of the pineapple leaf fiber surfaces on the interfacial and mechanical properties of laminated biocomposites. Compos. Interfaces 15(2–3), 169–191 (2008)CrossRef Huda, M.S., Lawrence, T., Drzal, T., Mohanty, A.K., Misra, M.: Effect of chemical modifications of the pineapple leaf fiber surfaces on the interfacial and mechanical properties of laminated biocomposites. Compos. Interfaces 15(2–3), 169–191 (2008)CrossRef
3.
go back to reference Mwaikambo, Y.M., Ansell, M.P.: The effect of chemical treatment on the properties of hemp, sisal, jute and kapok fibres for composite reinforcement. Angew. Makromol. Chem. 272, 108–116 (1999)CrossRef Mwaikambo, Y.M., Ansell, M.P.: The effect of chemical treatment on the properties of hemp, sisal, jute and kapok fibres for composite reinforcement. Angew. Makromol. Chem. 272, 108–116 (1999)CrossRef
4.
go back to reference Urbaniak, M.: Glass transition temperature-cure temperature-transformation (TgTT) diagram for EPY® epoxy system. Polimery 63(1), 18–24 (2018)CrossRef Urbaniak, M.: Glass transition temperature-cure temperature-transformation (TgTT) diagram for EPY® epoxy system. Polimery 63(1), 18–24 (2018)CrossRef
5.
go back to reference Batista, M.D.R., Drzal, L.T.: Carbon fiber/epoxy matrix composite interphases modified with cellulose nanocrystals. Compos. Sci. Technol. 164, 274–281 (2018)CrossRef Batista, M.D.R., Drzal, L.T.: Carbon fiber/epoxy matrix composite interphases modified with cellulose nanocrystals. Compos. Sci. Technol. 164, 274–281 (2018)CrossRef
6.
go back to reference Chmielewska, D., Barczewski, M., Sterzynski, T.: A new method of curing epoxy resin by using bis(heptaphenylaluminosilsesquioxane) as a hardener. Polimery 58(4), 270–275 (2013)CrossRef Chmielewska, D., Barczewski, M., Sterzynski, T.: A new method of curing epoxy resin by using bis(heptaphenylaluminosilsesquioxane) as a hardener. Polimery 58(4), 270–275 (2013)CrossRef
7.
go back to reference Andrzejewski, J., Misra, M., Mohanty, A.K.: Polycarbonate biocomposites reinforced with hybrid filler system of recycled carbon fiber and biocarbon. Preparation and thermo-mechanical characterization. J. Appl. Polym. Sci. 135, 46449 (2018)CrossRef Andrzejewski, J., Misra, M., Mohanty, A.K.: Polycarbonate biocomposites reinforced with hybrid filler system of recycled carbon fiber and biocarbon. Preparation and thermo-mechanical characterization. J. Appl. Polym. Sci. 135, 46449 (2018)CrossRef
8.
go back to reference Sanjay, M.R., Madhu, P., Jawaid, M., Senthamaraikannan, P., Senthil, S., Pradeep, S.: Characterization and properties of natural fiber polymer composites: a comprehensive review. J. Clean. Prod. 172, 566–581 (2018)CrossRef Sanjay, M.R., Madhu, P., Jawaid, M., Senthamaraikannan, P., Senthil, S., Pradeep, S.: Characterization and properties of natural fiber polymer composites: a comprehensive review. J. Clean. Prod. 172, 566–581 (2018)CrossRef
9.
go back to reference Szostak, M., Krzywdzińska, P., Barczewski, M.: Technologie MuCell® i InduMold w produkcji wysokiej jakości detali samochodowych z tworzyw polimerowych. Polimery 63(2), 145–152 (2018)CrossRef Szostak, M., Krzywdzińska, P., Barczewski, M.: Technologie MuCell® i InduMold w produkcji wysokiej jakości detali samochodowych z tworzyw polimerowych. Polimery 63(2), 145–152 (2018)CrossRef
10.
go back to reference Barczewski, M., Kloziński, A., Jakubowska, P., Sterzyński, T.: Nonisothermal crystallization of highly-filled polyolefin/calcium carbonate composites. J. Appl. Polym. Sci. 131, 41201 (2014) Barczewski, M., Kloziński, A., Jakubowska, P., Sterzyński, T.: Nonisothermal crystallization of highly-filled polyolefin/calcium carbonate composites. J. Appl. Polym. Sci. 131, 41201 (2014)
11.
go back to reference Hutchinson, J.M., Román, F., Cortés, P., Calventus, Y.: Epoxy composites filled with boron nitride and aluminum nitride for improved thermal conductivity. Polimery 62(7–8), 560–566 (2017)CrossRef Hutchinson, J.M., Román, F., Cortés, P., Calventus, Y.: Epoxy composites filled with boron nitride and aluminum nitride for improved thermal conductivity. Polimery 62(7–8), 560–566 (2017)CrossRef
12.
go back to reference Prociak, A., Sterzynski, T., Michalowski, S., Andrzejewski, J.: Microwave enhanced foaming of carbon black filled polypropylene. Cell. Polym. 30(4), 201–214 (2011)CrossRef Prociak, A., Sterzynski, T., Michalowski, S., Andrzejewski, J.: Microwave enhanced foaming of carbon black filled polypropylene. Cell. Polym. 30(4), 201–214 (2011)CrossRef
13.
go back to reference Fu, S.Y., Feng, X.Q., Lauke, B., Mai, Y.W.: Effects of particle size, particle/matrix interface adhesion and particle loading on mechanical properties of particulate-polymer composites. Compos. B Eng. 39(6), 933–961 (2008)CrossRef Fu, S.Y., Feng, X.Q., Lauke, B., Mai, Y.W.: Effects of particle size, particle/matrix interface adhesion and particle loading on mechanical properties of particulate-polymer composites. Compos. B Eng. 39(6), 933–961 (2008)CrossRef
14.
go back to reference Salasinska, K., Barczewski, M., Górny, R., Kloziński, A.: Evaluation of highly filled epoxy composites modified with walnut shell waste filler. Polym. Bull. 75(6), 2511–2528 (2018)CrossRef Salasinska, K., Barczewski, M., Górny, R., Kloziński, A.: Evaluation of highly filled epoxy composites modified with walnut shell waste filler. Polym. Bull. 75(6), 2511–2528 (2018)CrossRef
15.
go back to reference Lai, S.M., Han, J.L., Yu, Y.F.: Properties of rice husk/epoxy composites under different interfacial treatments. Polym. Compos. 38(9), 1992–2000 (2017)CrossRef Lai, S.M., Han, J.L., Yu, Y.F.: Properties of rice husk/epoxy composites under different interfacial treatments. Polym. Compos. 38(9), 1992–2000 (2017)CrossRef
17.
go back to reference Sabam, N., Jawaid, M., Alothman, Y.O., Paridahm, M.T.: A review on dynamic mechanical properties of natural fiber reinforced polymer composites. Constr. Build. Mater. 106, 149–159 (2016)CrossRef Sabam, N., Jawaid, M., Alothman, Y.O., Paridahm, M.T.: A review on dynamic mechanical properties of natural fiber reinforced polymer composites. Constr. Build. Mater. 106, 149–159 (2016)CrossRef
18.
go back to reference Kabir, M.M., Wang, H., Lau, K.T., Cardona, F.: Chemical treatments on plant-based natural fibre reinforced polymer composites: an overview. Compos. Part B 43, 2883–2892 (2012)CrossRef Kabir, M.M., Wang, H., Lau, K.T., Cardona, F.: Chemical treatments on plant-based natural fibre reinforced polymer composites: an overview. Compos. Part B 43, 2883–2892 (2012)CrossRef
19.
go back to reference Fiore, V., Calabrese, L., Scalici, T., Bruzzaniti, P., Valenza, A.: Experimental design of the bearing performances of flax fiber reinforced epoxy composites by a failure map. Compos. B Eng. 148, 40–48 (2018)CrossRef Fiore, V., Calabrese, L., Scalici, T., Bruzzaniti, P., Valenza, A.: Experimental design of the bearing performances of flax fiber reinforced epoxy composites by a failure map. Compos. B Eng. 148, 40–48 (2018)CrossRef
20.
go back to reference Fiore, V., Di Bella, G., Valenza, A.: Glass–basalt/epoxy hybrid composites for marine applications. Mater. Des. 32, 2091–2099 (2011)CrossRef Fiore, V., Di Bella, G., Valenza, A.: Glass–basalt/epoxy hybrid composites for marine applications. Mater. Des. 32, 2091–2099 (2011)CrossRef
21.
go back to reference Živković, I., Fragassa, C., Pavlović, A., Brugo, T.: Influence of moisture absorption on the impact properties of flax, basalt and hybrid flax/basalt fiber reinforced green composites. Compos. B Eng. 111, 148–164 (2017)CrossRef Živković, I., Fragassa, C., Pavlović, A., Brugo, T.: Influence of moisture absorption on the impact properties of flax, basalt and hybrid flax/basalt fiber reinforced green composites. Compos. B Eng. 111, 148–164 (2017)CrossRef
22.
go back to reference Andrzejewski, J., Tutak, N., Szostak, M.: Polypropylene composites obtained from self-reinforced hybrid fiber system. J. Appl. Polym. Sci. 133, 43283 (2015) Andrzejewski, J., Tutak, N., Szostak, M.: Polypropylene composites obtained from self-reinforced hybrid fiber system. J. Appl. Polym. Sci. 133, 43283 (2015)
23.
go back to reference Alnawasreh, S.S., Ala’a, M., Madanat, M.A., Ali, E.S.B., Almasri, A.M., Mousa, M.S.: Epoxylite influece on field electron emission properties of tungsten and carbon fiber tips. Appl. Microsc. 46(4), 227–237 (2016)CrossRef Alnawasreh, S.S., Ala’a, M., Madanat, M.A., Ali, E.S.B., Almasri, A.M., Mousa, M.S.: Epoxylite influece on field electron emission properties of tungsten and carbon fiber tips. Appl. Microsc. 46(4), 227–237 (2016)CrossRef
24.
go back to reference Knápek, A., Horáček, M., Chlumská, J., Kuparowitz, T., Sobola, D., Šikula, J.: Preparation and noise analysis of polymer graphite cathode. Metrol. Meas. Syst. 25(3), 451–458 (2018) Knápek, A., Horáček, M., Chlumská, J., Kuparowitz, T., Sobola, D., Šikula, J.: Preparation and noise analysis of polymer graphite cathode. Metrol. Meas. Syst. 25(3), 451–458 (2018)
25.
go back to reference McBride, A.K., Turek, S.L., Zaghi, A.E., Burke, K.A.: Mechanical behavior of hybrid glass/steel fiber reinforced epoxy composites. Polymers 9(4), 151 (2017)CrossRef McBride, A.K., Turek, S.L., Zaghi, A.E., Burke, K.A.: Mechanical behavior of hybrid glass/steel fiber reinforced epoxy composites. Polymers 9(4), 151 (2017)CrossRef
26.
go back to reference Cheung, H., Ho, M., Lau, K., Cardona, F., Hui, D.: Natural fibre-reinforced composites for bioengineering and environmental engineering applications. Compos. Part B: Eng. 40, 655–663 (2009)CrossRef Cheung, H., Ho, M., Lau, K., Cardona, F., Hui, D.: Natural fibre-reinforced composites for bioengineering and environmental engineering applications. Compos. Part B: Eng. 40, 655–663 (2009)CrossRef
27.
go back to reference Matykiewicz, D., Barczewski, M., Knapski, D., Skórczewska, K.: Hybrid effects of basalt fibers and basalt powder on thermomechanical properties of epoxy composites. Compos. B Eng. 125, 157–164 (2017)CrossRef Matykiewicz, D., Barczewski, M., Knapski, D., Skórczewska, K.: Hybrid effects of basalt fibers and basalt powder on thermomechanical properties of epoxy composites. Compos. B Eng. 125, 157–164 (2017)CrossRef
28.
go back to reference Pandita, S.D., Yuan, X., Manan, M.A., Lau, C.H., Subramanian, S.A., Wei, J.: Evaluation of jute/glass hybrid composite sandwich: water resistance, impact properties and life cycle assessment. J. Reinf. Plast. Compos. 33(1), 14–25 (2014)CrossRef Pandita, S.D., Yuan, X., Manan, M.A., Lau, C.H., Subramanian, S.A., Wei, J.: Evaluation of jute/glass hybrid composite sandwich: water resistance, impact properties and life cycle assessment. J. Reinf. Plast. Compos. 33(1), 14–25 (2014)CrossRef
29.
go back to reference Azwa, Z.N., Yousif, B.F.: Characteristics of kenaf fibre/epoxy composites subjected to thermal degradation. Polym. Degrad. Stab. 98, 2752–2759 (2013)CrossRef Azwa, Z.N., Yousif, B.F.: Characteristics of kenaf fibre/epoxy composites subjected to thermal degradation. Polym. Degrad. Stab. 98, 2752–2759 (2013)CrossRef
Metadata
Title
Hybrid Epoxy Composites Reinforced with Flax Fiber and Basalt Fiber
Authors
Danuta Matykiewicz
Maciej Bogusławski
Copyright Year
2019
DOI
https://doi.org/10.1007/978-3-030-16943-5_55

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