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PRODUCTION AND PROPERTIES OF AL2024-2 WT.% (SiC-B4C) HYBRID NANOCOMPOSITE

Yıl 2018, Cilt: 13 Sayı: 1, 29 - 33, 20.01.2018

Öz

In this paper, production
and properties of Al2024-SiC-B
4C hybrid nanocomposite produced using
mechanical alloying and hot pressing by powder metallurgy method. First of all,
Al2024, SiC and B4C powders were
alloyed in planetary ball mill at room temperature with 8 hours to be obtained
homogeneous powder distribution. After, the
hot pressing technique was
used for producing hybrid nanocomposite with 2 weight percentage (1 wt.% SiC
and 1 wt.% B
4C respectively) of SiC and B4C
reinforcements. The mechanical (hardness, tensile strength, bending strength,
fracture surface), physical (density, porosity) of properties and
microstructure of Al2024-SiC-B
4C hybrid nanocomposite were
investigated. It was showed that the uniform distribution of dispersion of
SiC-B
4C nano particles within Al2024 matrix.

Kaynakça

  • 1. Miracle, D.B., (2005). Composites Science and Technology, 2526, 65.
  • 2. Mazahery, A. and Shabani, M.O., (2012). Journal of Materials Engineering and Performance, 247, 21.
  • 3. Toptan, F., Kilicarslan, A., Karaaslan, A., Ciğdem, M., and Kerti, I., (2010). Materials and Design, 87, 31.
  • 4. LIM, K.Y., KIM, Y.W., and KIM, K.J., (2014). Electrical properties of SiC ceramics sintered with 0.5 wt% AlN–RE2O3, (J) Ceramics International, 40:8885−8890.
  • 5. Liu, Y., Chai, N., Qin, H., Li, Z., Ye, F., and Cheng, L., (2015). Tensile Fracture Behavior and Strength Distribution of SiCf/SiC Composites with Different SiBN Interface Thicknesses, (J) Ceramics International, 41:1609−1616.
  • 6. Tuncer, N., Tasdelen, B., and Arslan, G., (2011). Ceramics International 37, 2861–2867.
  • 7. Alizadeh, A., Taheri-Nassaj, E., and Hajizamani, M., (2011). Hot Extrusion Process Effect on Mechanical Behavior of Stir Cast Al Based Composites Reinforced with Mechanically Milled B4C Nanoparticles, J Mater Sci Technol, 27(12):1113–9.
  • 8. Abdoli, H., Asgharzadeh, H., and Salahi, E., (2009). Sintering Behavior of Al–AlNnanostructured Composite Powder Synthesized by High-Energy Ball Milling, J Alloys Compd, 473, 116, 22.
  • 9. Sajjadi, S.A., Torabi Parizi, M., Ezatpour, H.R., and Sedghic, A., (2012). Fabrication of A356 Composite Reinforced with Micro and Nano Al2O3 Particles by a Developed Compocasting Method and Study of Its Properties, J Alloys Compd, 511, 226–31.
  • 10. Erdemir, F., Canakci, A., Varol, T., and Ozkaya, S., (2015). Journal of Alloys and Compounds, 589, 644.
Yıl 2018, Cilt: 13 Sayı: 1, 29 - 33, 20.01.2018

Öz

Kaynakça

  • 1. Miracle, D.B., (2005). Composites Science and Technology, 2526, 65.
  • 2. Mazahery, A. and Shabani, M.O., (2012). Journal of Materials Engineering and Performance, 247, 21.
  • 3. Toptan, F., Kilicarslan, A., Karaaslan, A., Ciğdem, M., and Kerti, I., (2010). Materials and Design, 87, 31.
  • 4. LIM, K.Y., KIM, Y.W., and KIM, K.J., (2014). Electrical properties of SiC ceramics sintered with 0.5 wt% AlN–RE2O3, (J) Ceramics International, 40:8885−8890.
  • 5. Liu, Y., Chai, N., Qin, H., Li, Z., Ye, F., and Cheng, L., (2015). Tensile Fracture Behavior and Strength Distribution of SiCf/SiC Composites with Different SiBN Interface Thicknesses, (J) Ceramics International, 41:1609−1616.
  • 6. Tuncer, N., Tasdelen, B., and Arslan, G., (2011). Ceramics International 37, 2861–2867.
  • 7. Alizadeh, A., Taheri-Nassaj, E., and Hajizamani, M., (2011). Hot Extrusion Process Effect on Mechanical Behavior of Stir Cast Al Based Composites Reinforced with Mechanically Milled B4C Nanoparticles, J Mater Sci Technol, 27(12):1113–9.
  • 8. Abdoli, H., Asgharzadeh, H., and Salahi, E., (2009). Sintering Behavior of Al–AlNnanostructured Composite Powder Synthesized by High-Energy Ball Milling, J Alloys Compd, 473, 116, 22.
  • 9. Sajjadi, S.A., Torabi Parizi, M., Ezatpour, H.R., and Sedghic, A., (2012). Fabrication of A356 Composite Reinforced with Micro and Nano Al2O3 Particles by a Developed Compocasting Method and Study of Its Properties, J Alloys Compd, 511, 226–31.
  • 10. Erdemir, F., Canakci, A., Varol, T., and Ozkaya, S., (2015). Journal of Alloys and Compounds, 589, 644.
Toplam 10 adet kaynakça vardır.

Ayrıntılar

Konular Mühendislik
Bölüm Makaleler
Yazarlar

Abdullah Karabacak

Aykut Çanakçı

Serdar Özkaya Bu kişi benim

Müslim Çelebi Bu kişi benim

Emre Yalçın

Yayımlanma Tarihi 20 Ocak 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 13 Sayı: 1

Kaynak Göster

APA Karabacak, A., Çanakçı, A., Özkaya, S., Çelebi, M., vd. (2018). PRODUCTION AND PROPERTIES OF AL2024-2 WT.% (SiC-B4C) HYBRID NANOCOMPOSITE. Technological Applied Sciences, 13(1), 29-33.
AMA Karabacak A, Çanakçı A, Özkaya S, Çelebi M, Yalçın E. PRODUCTION AND PROPERTIES OF AL2024-2 WT.% (SiC-B4C) HYBRID NANOCOMPOSITE. NWSA. Ocak 2018;13(1):29-33.
Chicago Karabacak, Abdullah, Aykut Çanakçı, Serdar Özkaya, Müslim Çelebi, ve Emre Yalçın. “PRODUCTION AND PROPERTIES OF AL2024-2 WT.% (SiC-B4C) HYBRID NANOCOMPOSITE”. Technological Applied Sciences 13, sy. 1 (Ocak 2018): 29-33.
EndNote Karabacak A, Çanakçı A, Özkaya S, Çelebi M, Yalçın E (01 Ocak 2018) PRODUCTION AND PROPERTIES OF AL2024-2 WT.% (SiC-B4C) HYBRID NANOCOMPOSITE. Technological Applied Sciences 13 1 29–33.
IEEE A. Karabacak, A. Çanakçı, S. Özkaya, M. Çelebi, ve E. Yalçın, “PRODUCTION AND PROPERTIES OF AL2024-2 WT.% (SiC-B4C) HYBRID NANOCOMPOSITE”, NWSA, c. 13, sy. 1, ss. 29–33, 2018.
ISNAD Karabacak, Abdullah vd. “PRODUCTION AND PROPERTIES OF AL2024-2 WT.% (SiC-B4C) HYBRID NANOCOMPOSITE”. Technological Applied Sciences 13/1 (Ocak 2018), 29-33.
JAMA Karabacak A, Çanakçı A, Özkaya S, Çelebi M, Yalçın E. PRODUCTION AND PROPERTIES OF AL2024-2 WT.% (SiC-B4C) HYBRID NANOCOMPOSITE. NWSA. 2018;13:29–33.
MLA Karabacak, Abdullah vd. “PRODUCTION AND PROPERTIES OF AL2024-2 WT.% (SiC-B4C) HYBRID NANOCOMPOSITE”. Technological Applied Sciences, c. 13, sy. 1, 2018, ss. 29-33.
Vancouver Karabacak A, Çanakçı A, Özkaya S, Çelebi M, Yalçın E. PRODUCTION AND PROPERTIES OF AL2024-2 WT.% (SiC-B4C) HYBRID NANOCOMPOSITE. NWSA. 2018;13(1):29-33.