Yıl 2018,
Cilt: 1 Sayı: 1, 1 - 7, 08.08.2018
Nurgül Sak
,
Muzaffer Zeren
,
Rıdvan Yamanoğlu
Kaynakça
- Torralba J. M., da Costa C. E., Velasco F., 2003. P/M Aluminum Matrix Composites: An Overview. Journal of Materials Processing Technology, 133, 203–206.
- Çerezci T., Nikel Partikül Takviyeli Alümina Seramik Kompozitlerin Sentezi ve Karakterizasyonu, Yüksek Lisans Tezi, Sakarya Üniversitesi, Fen Bilimleri Enstitüsü, Sakarya, 2008, 21604.
- Giuranno D., Tuissi A., Novakovic R., Ricci E., 2010. Surface Tension and Density of Al-Ni Alloys. Journal of Chemical Engineering & Engineering Data, 55, 3024.
- Adamiec J., 2007. Ni3Al Alloy Properties Related to High-Temperature Brittleness. Archives of Materials Science and. Engineering, , 28 (6), 333-336.
- Krasnowski M., Kulik T., 2007. Nanocrystalline FeAl Matrix Composites Reinforced with TiC Obtained by Hot-pressing Consolidation of Mechanically Alloyed Powders. Intermetallics, 15, 1377-1383.
- Stoloff N., Liu C. T., Deevi S. C., 2000. Emerging Applications of Intermetallics. Intermetallics, Elsevier Science B. V.,8(9-11) , 1313-1320.
- Koli D. K., Agnihotri G., Purohit R., 2013. Properties and Characterization of Al- Al2O3 Composites Processed by Casting and Powder Metallurgy Routes (Review), International Journal of Latest Trends in Engineering and Technology (IJLTET), 2(4), 486-496.
- Al-Qutub A. M., Samed M. A., 2008. Wear and Friction of Al-A12O3 Composites at Various Sliding Speeds. Journal of Materials Science, 43(17), 5797-5803.
- Shibata K., Ushio H., 1994.Tribological application of MMC for reducing engine weight. Tribology International, 27 (1), 39–44.
- Sharma P., Sharma S., Khanduja D., 2015. A Study on Microstructure of Aliminium Matrix Composites. Journal of Asian Ceramic Societies, 3(3), 240–244.
- Alpas A.T., Zhang J., 1994. Effect of Microstructure (Particulate Size and Volume Fraction) and Counter face Material on the Sliding Wear Resistance of Particulate-Reinforced Aluminum Matrix Composites. Metallurgical and Materials Transactions, 25A, 969-983.
- Deuis R. L., Subramanian C., Yellup J. M., 1997. Dry Sliding Wear of Aluminium Composites(A Review). Composites Science and Technology, , 57, 415-435.
- Yashpal, Sumankant, Jawalkar C. S., Verma A. S., Suri N.M., 2017. Fabrication of Aluminium Metal Matrix Composites with Particulate Reinforcement: A Review. Materials Today: Proceedings, 4, 2927–2936.
- Mazahery A., Abdizadeh H., Baharvandi H. R., 2009. Development of High-Performance A356/ Nano- Al2O3 Composites. Materials Science and Engineering, A 518, 61–64.
- Karakulak E., Yamanoğlu R., Zeren M., Dündar E. E., 2014. Production and Characterization of Hot Pressed Al-Ni Alloys. Metal, Brno, Check Republic, 21-23 May, 1-7.
- Shockley J. M., Descartes S., Vo P., Irissou E., Chromik R. R., 2015. The influence of Al2O3 Particle Morphology on the Coating Formation and Dry Sliding Wear Behavior of Cold Sprayed Al-Al2O3 Composites. Surface & Coating Technology, 270, 1-31.
- Shen Y. L., 2010. Constrained Deformation of Materials, Springer DOI 10.1007/978-1-4419-6312-3.
- Yamanoğlu R., 2014. Production and Characterization of Alx-Ni In Stu Composites Using Hot Pressing, J. Min .Metall. Sect. B-Metall., 50 (1), 45 – 52.
- Jin J. H., Stephenson D. J., 1998. The Sliding Wear Behaviour of Reactively Hot Pressed Nickel Aluminides. Wear, 217, 200-207.
Alümina Katkılı ve Nikel ile Alaşımlandırılmış Alüminyum Esaslı Kompozitlerde Özelliklerin Karakterizasyonu
Yıl 2018,
Cilt: 1 Sayı: 1, 1 - 7, 08.08.2018
Nurgül Sak
,
Muzaffer Zeren
,
Rıdvan Yamanoğlu
Öz
Bu çalışmada, saf alüminyum ve alümina tozlarına
farklı miktarlarda (ağırlıkça% 10'a kadar) saf nikel tozları eklenmiştir.
Tozlar, bir bilyalı değirmen kullanılarak yarım saat boyunca mekanik olarak
karıştırılmıştır. Toz karışımları vakum altında sıcak preste 20, 30 ve 40
dakika süreyle 600° C'de sinterlenmiştir. Numunelerin mikroyapıları ve aşınmış
yüzeyleri taramalı elektron mikroskopu kullanılarak incelenmiştir. Çalışmada
sinterlenmiş kompakt numunelerin yoğunluğu, sertliği ve aşınma özellikleri
araştırılmıştır. Numunelerin yoğunluğu ve sertliğinin artan nikel içeriğine
bağlı olarak arttığı görülmüştür. Sonuçlar, nikel katkısının alüminyum ile
alümina arasında güçlü bir bağlanma ara yüzeyi sağlayarak matris üzerinde
sertlik ve aşınma davranışını geliştirdiğini göstermiştir.
Kaynakça
- Torralba J. M., da Costa C. E., Velasco F., 2003. P/M Aluminum Matrix Composites: An Overview. Journal of Materials Processing Technology, 133, 203–206.
- Çerezci T., Nikel Partikül Takviyeli Alümina Seramik Kompozitlerin Sentezi ve Karakterizasyonu, Yüksek Lisans Tezi, Sakarya Üniversitesi, Fen Bilimleri Enstitüsü, Sakarya, 2008, 21604.
- Giuranno D., Tuissi A., Novakovic R., Ricci E., 2010. Surface Tension and Density of Al-Ni Alloys. Journal of Chemical Engineering & Engineering Data, 55, 3024.
- Adamiec J., 2007. Ni3Al Alloy Properties Related to High-Temperature Brittleness. Archives of Materials Science and. Engineering, , 28 (6), 333-336.
- Krasnowski M., Kulik T., 2007. Nanocrystalline FeAl Matrix Composites Reinforced with TiC Obtained by Hot-pressing Consolidation of Mechanically Alloyed Powders. Intermetallics, 15, 1377-1383.
- Stoloff N., Liu C. T., Deevi S. C., 2000. Emerging Applications of Intermetallics. Intermetallics, Elsevier Science B. V.,8(9-11) , 1313-1320.
- Koli D. K., Agnihotri G., Purohit R., 2013. Properties and Characterization of Al- Al2O3 Composites Processed by Casting and Powder Metallurgy Routes (Review), International Journal of Latest Trends in Engineering and Technology (IJLTET), 2(4), 486-496.
- Al-Qutub A. M., Samed M. A., 2008. Wear and Friction of Al-A12O3 Composites at Various Sliding Speeds. Journal of Materials Science, 43(17), 5797-5803.
- Shibata K., Ushio H., 1994.Tribological application of MMC for reducing engine weight. Tribology International, 27 (1), 39–44.
- Sharma P., Sharma S., Khanduja D., 2015. A Study on Microstructure of Aliminium Matrix Composites. Journal of Asian Ceramic Societies, 3(3), 240–244.
- Alpas A.T., Zhang J., 1994. Effect of Microstructure (Particulate Size and Volume Fraction) and Counter face Material on the Sliding Wear Resistance of Particulate-Reinforced Aluminum Matrix Composites. Metallurgical and Materials Transactions, 25A, 969-983.
- Deuis R. L., Subramanian C., Yellup J. M., 1997. Dry Sliding Wear of Aluminium Composites(A Review). Composites Science and Technology, , 57, 415-435.
- Yashpal, Sumankant, Jawalkar C. S., Verma A. S., Suri N.M., 2017. Fabrication of Aluminium Metal Matrix Composites with Particulate Reinforcement: A Review. Materials Today: Proceedings, 4, 2927–2936.
- Mazahery A., Abdizadeh H., Baharvandi H. R., 2009. Development of High-Performance A356/ Nano- Al2O3 Composites. Materials Science and Engineering, A 518, 61–64.
- Karakulak E., Yamanoğlu R., Zeren M., Dündar E. E., 2014. Production and Characterization of Hot Pressed Al-Ni Alloys. Metal, Brno, Check Republic, 21-23 May, 1-7.
- Shockley J. M., Descartes S., Vo P., Irissou E., Chromik R. R., 2015. The influence of Al2O3 Particle Morphology on the Coating Formation and Dry Sliding Wear Behavior of Cold Sprayed Al-Al2O3 Composites. Surface & Coating Technology, 270, 1-31.
- Shen Y. L., 2010. Constrained Deformation of Materials, Springer DOI 10.1007/978-1-4419-6312-3.
- Yamanoğlu R., 2014. Production and Characterization of Alx-Ni In Stu Composites Using Hot Pressing, J. Min .Metall. Sect. B-Metall., 50 (1), 45 – 52.
- Jin J. H., Stephenson D. J., 1998. The Sliding Wear Behaviour of Reactively Hot Pressed Nickel Aluminides. Wear, 217, 200-207.