TY - JOUR T1 - Effect of fullerene (C60) nanoparticle on mechanical properties of hot-extruded aluminum matrix composite TT - FULLERENİN SICAK EKSTRÜZYONLU ALUMİNYUM MATRİSLİ KOMPOZİTİN MEKANİK ÖZELLİKLERİNE ETKİSİ AU - Turan, Muhammet Emre PY - 2019 DA - July Y2 - 2019 DO - 10.28948/ngumuh.479757 JF - Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi JO - NÖHÜ Müh. Bilim. Derg. PB - Niğde Ömer Halisdemir Üniversitesi WT - DergiPark SN - 2564-6605 SP - 1153 EP - 1159 VL - 8 IS - 2 LA - en AB - Aluminum matrix composites have attractiveattention for scientists and manufacturers. In this study, fullerene (C60)nanoparticle reinforced aluminum matrix composite was fabricated via semipowder metallurgy method. Development of mechanical performance of purealuminum was aimed using C60 nanoparticle. Microstructure analyzes werecompleted by X-ray diffraction (XRD) and Scanning Electron Microscope (SEM).Hardness, compression and tensile properties of unreinforced aluminum and C60reinforced composite were evaluated. Results show that nanoparticle washomogenously distributed in matrix and there were no cracks or macro defects.Hardness was significantly improved with the addition of fullerene andextrusion process. Al-C60 composite exhibited better compression and tensileperformance than pure aluminum. KW - Aluminum KW - Fullerene KW - Mechanical properties KW - sem N2 - Alüminyum matrisli kompozitler sanayicilerve bilim insanları için dikkat çekici bir öneme sahiptir. Bu çalışmada fulleren(C60) takviyeli alüminyum matrisli kompozit malzeme, yarı toz metalürjisiyöntemiyle üretilmiştir. X Işını Kırınımı (XRD) ve Taramalı ElektronMikroskopuyla (SEM) numunelerin mikro yapı analizleri gerçekleştirilmiştir. Safalüminyum ve Al-C60 kompozitinin sertlik, basma ve çekme mukavemetleri hakkındadeğerlendirmeler yapılmıştır. Sonuçlardan yola çıkarak, fullerenin alüminyummatrisi içerisinde homojen dağıldığı gözlemlenmiştir ve herhangi bir çatlağa yada makro hatalara rastlanmamıştır. Fullerenin ilavesiyle ve ekstrüzyonprosesiyle alüminyumun sertliğinde önemli bir artış görülmüştür. Al-C60kompoziti saf alüminyuma kıyasla daha iyi basma ve çekme mukavemetiperformansları sergilemiştir. CR - [1] A. Nag vd., “Hybrid aluminium matrix composite AWJ turning using olivine and Barton garnet”, Int. J. Adv. Manuf. Technol., c. 94, sy 5, ss. 2293-2300, Şub. 2018. CR - [2] B. Ma, J. Wang, T. H. Lee, S. E. Dorris, J. Wen, ve U. Balachandran, “Microstructural characterization of Al 4 C 3 in aluminum–graphite composite prepared by electron-beam melting”, J. Mater. Sci., ss. 1–8, 2018. CR - [3] X. Gao vd., “Preparation and tensile properties of homogeneously dispersed graphene reinforced aluminum matrix composites”, Mater. Des., c. 94, ss. 54–60, 2016. CR - [4] E. Ghasali, P. Sangpour, A. Jam, H. Rajaei, K. Shirvanimoghaddam, ve T. Ebadzadeh, “Microwave and spark plasma sintering of carbon nanotube and graphene reinforced aluminum matrix composite”, Arch. Civ. Mech. Eng., c. 18, sy 4, ss. 1042-1054, Eyl. 2018. CR - [5] R. Pérez-Bustamante vd., “Microstructural and mechanical characterization of Al–MWCNT composites produced by mechanical milling”, Mater. Sci. Eng. A, c. 502, sy 1, ss. 159-163, Şub. 2009. CR - [6] J. Li, X. Zhang, ve L. Geng, “Improving graphene distribution and mechanical properties of GNP/Al composites by cold drawing”, Mater. Des., c. 144, ss. 159-168, Nis. 2018. CR - [7] R. Taylor ve D. R. Walton, “The chemistry of fullerenes”, Nature, c. 363, sy 6431, s. 685, 1993. CR - [8] M. E. Turan, Y. Sun, ve Y. Akgul, “Mechanical, tribological and corrosion properties of fullerene reinforced magnesium matrix composites fabricated by semi powder metallurgy”, J. Alloys Compd., c. 740, ss. 1149–1158, 2018. CR - [9] K. Choi, S. Shin, D. Bae, ve H. Choi, “Mechanical Properties of Aluminium-Based Nanocomposite Reinforced with Fullerenes”, içinde Light Metals 2014, Springer, 2014, ss. 1437–1440. CR - [10] F. A. Khalid, O. Beffort, U. E. Klotz, B. A. Keller, P. Gasser, ve S. Vaucher, “Study of microstructure and interfaces in an aluminium–C60 composite material”, Acta Mater., c. 51, sy 15, ss. 4575–4582, 2003. CR - [11] M. Rashad, F. Pan, Z. Yu, M. Asif, H. Lin, ve R. Pan, “Investigation on microstructural, mechanical and electrochemical properties of aluminum composites reinforced with graphene nanoplatelets”, Prog. Nat. Sci. Mater. Int., c. 25, sy 5, ss. 460–470, 2015. CR - [12] K. K. Deng, X. J. Wang, Y. W. Wu, X. S. Hu, K. Wu, ve W. M. Gan, “Effect of particle size on microstructure and mechanical properties of SiCp/AZ91 magnesium matrix composite”, Mater. Sci. Eng. A, c. 543, ss. 158–163, 2012. CR - [13] Q. B. Nguyen vd., “Enhancing hardness, CTE and compressive response of powder metallurgy magnesium reinforced with metastable Al90Y10 powder particles”, Powder Metall., c. 59, sy 3, ss. 209–215, 2016. CR - [14] M. K. Habibi, A. S. Hamouda, ve M. Gupta, “Hybridizing boron carbide (B4C) particles with aluminum (Al) to enhance the mechanical response of magnesium based nano-composites”, J. Alloys Compd., c. 550, ss. 83–93, 2013. CR - [15] M. Rashad, F. Pan, A. Tang, ve M. Asif, “Effect of graphene nanoplatelets addition on mechanical properties of pure aluminum using a semi-powder method”, Prog. Nat. Sci. Mater. Int., c. 24, sy 2, ss. 101–108, 2014. UR - https://doi.org/10.28948/ngumuh.479757 L1 - https://dergipark.org.tr/tr/download/article-file/773824 ER -