TY - JOUR TT - Impact Strength of Interply and Intraply Hybrid Laminates Based on Carbon-Aramid/Epoxy Composites AU - Uzay, Çağrı AU - Acer, Durmuş AU - Geren, Necdet PY - 2019 DA - March Y2 - 2018 DO - 10.26701/ems.384440 JF - European Mechanical Science JO - EMS PB - Ahmet ÇALIK WT - DergiPark SN - 2587-1110 SP - 1 EP - 5 VL - 3 IS - 1 KW - hybrid composites KW - intraply KW - interplay KW - Charpy test KW - impact resistance N2 - Hybridization plays an important role to achievemulti-functionality for the particular composite applications. Hybridcomposites allow designers to obtain desired physical and mechanical propertiesthat cannot be provided from a single type of fiber reinforcement such as combininghigh strength, light weight and good impact resistance together. In this study,the effect of hybridization on the Charpy impact strength was investigatedconsidering the aramid and carbon fiber reinforced polymer (FRP) composites.For this reason, interply, intraply hybrid composite laminates, aramid FRP andcarbon FRP were manufactured by hand lay-up followed by vacuum bagging method.The composite laminates were tested according to ISO 179-1: 2010 Standard usingCharpy impact testing machine. The results were given comparatively and shownthat energy absorption capacity of intraply hybrid composite laminate was foundbetter than others. CR - Kamal K. Kar. Composite Materials Processing, Applications, Characterizations. Springer-Verlag Berlin Heidelberg, Germany, 2017 CR - M. Balasubramanian. Composite Materials and Processing. CRC Press, 2014 CR - Alessandro Pegoretti, Elena Fabbri, Claudio Migliaresi and Francesco Pilati, 2004. Intraply and interply hybrid composites based on E-glass and poly(vinyl alcohol) woven fabrics: tensile and impact properties. Polymer International, 53(9): 1290–129. DOI: 10.1002/pi.1514 CR - P.K. Mallick, 2007. Fiber-Reinforced Composites: Materials, Manufacturing, and Design, 3rd Edition CRC Press CR - MA Attia, MA Abd El-baky and AE Alshorbagy, 2017. Mechanical performance of intraply and inter-intraply hybrid composites based on e-glass and polypropylene unidirectional fibers. Journal of Composite Materials 2017, Vol. 51(3) 381–394. DOI: 10.1177/0021998316644972 CR - Aswani Kumar Bandaru, Shivdayal Patel, Suhail Ahmad and Naresh Bhatnagar, 2017. An experimental and numerical investigation on the low velocity impact response of thermoplastic hybrid composites. Journal of Composite Materials, 0(0) 1–13. DOI: 10.1177/0021998317714043 CR - Majid Tehrani Dehkordi, Hooshang Nosraty, Mahmood Mehrdad Shokrieh, Giangiacomo Minak, Daniele Ghelli, 2013. The influence of hybridization on impact damage behavior and residual compression strength of intraply basalt/nylon hybrid composites. Materials and Design, 43 (2013) 283–290. DOI: 10.1016/j.matdes.2012.07.005 CR - R. Yahaya, S. M. Sapuan, M. Jawaid, Z. Leman, and E. S. Zainudin, 2016. Investigating Ballistic Impact Properties of Woven Kenaf-aramid Hybrid Composites. Fibers and Polymers 2016, Vol.17, No.2, 275-281. DOI 10.1007/s12221-016-5678-6 CR - R.J. Muhi, F. Najim, M.F.S.F. de Moura, 2009. The effect of hybridization on the GFRP behavior under high velocity impact. Composites: Part B 40 (2009) 798–803. DOI:10.1016/j.compositesb.2009.08.002 CR - S.M. Sapuan, H.Y. Lok, M.R. Ishak, and S. Misri, 2013. Mechanical properties of hybrid glass/sugar palm fıbre reinforced unsaturated polyester composites. Chinese Journal of Polymer Science Vol. 31, No. 10, (2013), 1394−1403. DOI: 10.1007/s10118-013-1342-4 CR - Hexion Specialty Chemicals, 2006. Technical Information, Epoxy Resins, Germany CR - ASTM D6110-10, 2010. Standard test method for determining the charpy impact resistance of notched specimens of plastics. ASTM International, West Conshohocken, PA, United States CR - International Standard ISO 179-1: 2010. Plastics – Determination of Charpy impact properties Part 1: Non-instrumented impact test UR - https://doi.org/10.26701/ems.384440 L1 - https://dergipark.org.tr/en/download/article-file/598685 ER -