Abstract




 
   

IJE TRANSACTIONS A: Basics Vol. 31, No. 7 (July 2018) 1139-1145    Article in Press

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  MECHANICAL CHARACTERIZATION OF GLASS-BASALT-CARBON/POLYESTER HYBRID COMPOSITES
 
M. S. EL-Wazery
 
( Received: December 21, 2017 – Accepted in Revised Form: March 09, 2018 )
 
 

Abstract    Influence of the stacking sequences of hybrid composites on the tensile strength, flexural strength, inter-laminar shear strength (ILSS) and impact energy was investigated. The hybrid glass-basalt-carbon/polyester composite laminates were processed by hand lay-up procedure at room temperature. The fracture surface of the composite laminates after the tension and flexural test was examined by scanning electron micrograph (SEM). The results show that the best mechanical properties were obtained for the composite laminates S5 at stacking sequences [C/B/C/B/C]; where the tensile strength, flexural strength, and ILSS were 148 MPa, 448 MPa, and 25 MPa, respectively. This decline in mechanical properties attributed to the good interfacial bonding between the fibres and the matrix in this configuration. On the other hand, the largest impact strength (43.70 kJ/mm2) was clearly observed for laminates S2 at the stacking sequences [C/G/C/G/C] compared to other laminates simply due to the high stiffness and strength of the carbon fabrics.

 

Keywords    Stacking Sequences; Hand Lay-up Procedure; Fracture Surface; Mechanical Properties

 

چکیده    اثر انتزاعی توالی های انباشته از مواد مرکب هیبرید بر استحکام کششی مقاومت خمشی استحکام برشی بین آرام (ILSS) و تاثیر انرژی بررسی شد. ورقه کامپوزیت شیشه ای و کربن/استر هیبرید بروش دستیlay-up در دمای اتاق پردازش شد. شکستگی سطح ورقه کامپوزیت پس از تنش و خمشی تست توسط اسکن میکروسکپ الکترونیکی (SEM) مورد بررسي قرار گرفت. نتایج نشان می دهد که ویژگی های مکانیکی برای کامپوزیت به دست آمد لامینیت S5 در توالی های انباشته [C/B/C/B/C]، که در آن مقاومت کششی، مقاومت خمشی و ILSSبرابر با448 MPa, 148 MPa و 25 MPa میباشد. این کاهش در خواص مکانیکی منسوب به مطلوب بودن پیوند بین الیاف و ماتریس در این پیکربندی می باشد. از سوی دیگر بزرگترین تاثیر قدرت ( 43.70 kJ/mm2) به وضوح برای ورقه S2 در توالی انباشته [C/G/C/G/C] نسبت به دیگر ورقه به سادگی مشاهده گردید.

References     1.     Gay, D., Hoa, S.V. and Tsai, S.W., "Composite materials: Design and applications, CRC press,  (2002).

2.     E, E.A., A, A.G., M., A. and Oraby, E.A., "Effect of glass fibers stacking sequence on the mechanical properties of glass fiber/polyester composites", Journal of Material Sciences & Engineering,  Vol. 7, No. 1, (2018), 1-5.

3.     Han, S.H., Oh, H.J., Lee, H.C. and Kim, S.S., "The effect of post-processing of carbon fibers on the mechanical properties of epoxy-based composites", Composites Part B: Engineering,  Vol. 45, No. 1, (2013), 172-177.

4.     Jamshaid., H., "Basalt fiber and its applications", Journal of Textile Engineering & Fashion Technology,  Vol. 1, No. 6, (2017), 1-3.

5.     Caminero, M., Lopez-Pedrosa, M., Pinna, C. and Soutis, C., "Damage assessment of composite structures using digital image correlation", Applied Composite Materials,  Vol. 21, No. 1, (2014), 91-106.

6.     Chikhradze, N., Marquis, F.D., Japaridze, L., Abashidze, G. and Okujava, L., "Polymer based composite and hybrid materials for wind power generation", in Materials science forum, Trans Tech Publ. Vol. 654, (2010), 2612-2615.

7.     EL-Wazery, M., "Mechanical characteristics and novel applications of hybrid polymer composites-a review",  Vol. 8, No. 2, (2017), 666-675.

8.     Fiore, V., Di Bella, G. and Valenza, A., "Glass–basalt/epoxy hybrid composites for marine applications", Materials & Design,  Vol. 32, No. 4, (2011), 2091-2099.

9.     Al-Saadi, H.N., "Influence of the stacking sequence on the tensile properties of hybrid composite, ipasj ", International Journal of Mechanical Engineering,  Vol. 4, No. 9, (2016), 1-7.

10.   Subagia, I.A. and Kim, Y., "A study on flexural properties of carbon-basalt/epoxy hybrid composites", Journal of Mechanical Science and Technology,  Vol. 27, No. 4, (2013), 987-992.

11.   Lim, J.I., Rhee, K.Y., Kim, H.J. and Jung, D.H., "Effect of stacking sequence on the flexural and fracture properties of carbon/basalt/epoxy hybrid composites", Carbon Letters,  Vol. 15, No. 2, (2014), 125-128.

12.   Amuthakkannan, P., Manikandan, V. and Uthayakumar, M., "Mechanical properties of basalt and glass fiber reinforced polymer hybrid composites", Journal of Advanced Microscopy Research,  Vol. 9, No. 1, (2014), 44-49.

 

 

13.   Mengal, A., Karuppanan, S. and Farhood, N., "Compressive behaviour of basalt frp and basalt-carbon hybrid frp laminates", ARPN Journal of Engineering and Applied Sciences,  Vol. 11, (2016), 1819-6608.

14.   Dong, C. and Davies, I.J., "Flexural properties of e glass and tr50s carbon fiber reinforced epoxy hybrid composites", Journal of Materials Engineering and Performance,  Vol. 22, No. 1, (2013), 41-49.

15.   Jusoh, M.S.M., Santulli, C., Yahya, M.Y.M., Hussein, N.S. and Ahmad, H.A.I., "Effect of stacking sequence on the tensile and flexural properties of glass fibre epoxy composites hybridized with basalt, flax or jute fibres", Material Science and Engineering with Advanced Research,  Vol. 1, No. 4, (2016), 19-25.

16.   Jusoh, M.S.M., Yahya, M.Y. and Hussein, N.I.S., "The effect of fibre layering pattern in resisting bending loads of natural fibre-based hybrid composite materials", in MATEC Web of Conferences, EDP Sciences. Vol. 39, (2016), 1-6.

17.   Jamal, S.K., Abu Hassan, S., Jye, W.K. and Yahya, M.Y., "Flexural and interlaminar shear study of hybrid woven kenaf/recycled gfrp (RGFRP) composites subjected to bending load", International Journal of Advanced And Applied Sciences,  Vol. 4, No. 3, (2017), 45-50.

18.   Karthick, S. and Vetrivel, R., "Experimental analysis of carbon/glass fiber reinforced epoxy hybrid composites with different carbon/glass fiber ratios", International Journal of Innovative Research in Science, Engineering and Technology,  Vol. 5, No. 5, (2016), 6769-6780.

19.   Jagannatha, T. and Harish, G., "Mechanical properties of carbon/glass fiber reinforced epoxy hybrid polymer composites", International Journal of Mechanical Engineering and Robotics Research,  Vol. 4, No. 2, (2015), 131-137.

20.   Sai Kumar, A., Ganesan, G. and Karthikeyan, K., "Experimental investigations on physical and mechanical properties of carbon-glass hybrid composite rods",  International Journal of Advance Research in Science and Engineering, Vol 6, Isue,1 (2017), 574-583.

21.   Sayer, M., Bektaş, N.B., Sayman, O. and Topçu, M., "An experimental investigation on the impact behaviour of glass/epoxy and hybrid composite plates", Advanced Composites Letters,  Vol. 18, No. 4, (2009), 214-219.

22.   Kanthraju, B., Suresha, B. and Saini, M.S., "Effect of type and filler loading on the static mechanical properties of glass-basalt hybrid fabric reinforced epoxy composites", International Journal of Advances in Production and Mechanical Engineering,  Vol. 1, (2015), 2394-6210.

23.   Carmisciano, S., De Rosa, I.M., Sarasini, F., Tamburrano, A. and Valente, M., "Basalt woven fiber reinforced vinylester composites: Flexural and electrical properties", Materials & Design,  Vol. 32, No. 1, (2011), 337-342.

24.   Majzoubi, G. and Zaheri, F.M., "Numerical and experimental study of ballistic response of kevlar fabric and kevlar/epoxy composite", International Journal of Engineering-Transactions B: Applications,  Vol. 30, No. 5, (2017), 791-799.

25.   N, M.M., EL-Wazery, S.M., EL-Elamy, M. and Zoalfakar, S., "Mechanical and dynamic properties of hybrid composite laminate", International Journal of Advanced Engineering and Global Technology,  Vol. 5, No. 3, (2017), 1703-1725.       


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