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Year 2019, Volume: 7 Issue: 1, 184 - 191, 24.03.2019

Barış Avar , Tuncay Şimşek , Musa Göğebakan

https://doi.org/10.29109/gujsc.470909
Cited By: 2

Abstract

References

  • Inoue, A., Kimura, H. Bulk amorphous, nanocrystalline and nanoquasicrystalline aluminium alloys. Aerospace Materials (Editörler: Brian Cantor , Patrick Grant , and Hazel Assender). Institute of Physics Publishing, London, UK. s.150-169. (2001).
  • C. Suryanarayana, A. Inoue, Bulk Metallic Glasses. CRC Press - Taylor & Francis Group, USA. (2011) 1-542.
  • C.C. Koch, Structural nanocrystalline materials: an overview. Journal of Materials Science, 42 (2007) 1403-1414.
  • R.W. Siegel, G.E. Fougere, Mechanical properties of nanocrystalline materials. Nanostructured Materials, 6 (1995) 205–216.
  • M.A Willard, M. Daniil, Nanocrystalline soft magnetic alloys two decades of progress. Handbook of Magnetic Materials, 21 (2013) 173-342.
  • C. Suryanarayana, Mechanical alloying and milling, Progress in Materials Science. 46 (2001) 1–184.
  • S. Enzo, R. Frattini, R. Gupta, X-ray powder diffraction and Mossbauer study of nanocrystalline Fe-Al prepared by mechanical alloying. Acta Materialia, 44 (1996) 3105-3113.
  • E.P. Yelsukov, G.A. Dorofeev, Mechanical alloying in binary Fe-M (M=C, B, Al, Si,Ge, Sn) systems. Journal of Materials Science, 39 (2004) 5071-5079.
  • Q. Zeng, I. Baker, Magnetic properties and thermal ordering of mechanically alloyed Fe-40 at.% Al. Intermetallics, 14 (2006) 396-405.
  • B. Avar, M. Gogebakan, S. Ozcan, S. Kerli, Structural, Mechanical and magnetic properties of fe – 40-at.% al powders during mechanical alloying. Journal of the Korean Physical Society, 65:5 (2014), 664-670.
  • J. Eckert, J.C. Holzer, W.L. Johnson, Thermal stability and grain growth behavior of mechanically alloyed nanocrystalline Fe-Cu alloys. Journal of Applied Physics, 73: (1993) 131.
  • M. Krifa, M. Mhadhbi, L. Escoda, J. Saurina, J.J. Suñol, N. Llorca-Isern, C. Artieda-Guzmán, M. Khitouni, Phase transformations during mechanical alloying of Fe–30% Al–20% Cu. Powder Technology, 246 (2013) 117-124.
  • M. Krifa, M. Mhadhbi, L. Escoda, J.M. Guell, J.J. Suñol, N. Llorca-Isern, C. Artieda-Guzmán, M. Khitouni, Nanocrystalline (Fe60Al40) 80Cu20 alloy prepared by mechanical alloying. Journal of Alloys and Compounds, 554 (2013): 51-58.
  • R.A. Rastabi, A. Ghasemi, M. Tavoosi, T. Sodaee, Magnetic characterization of nanocrystalline Fe80−xCrxCo20 (15≤x≤35) alloys during milling and subsequent annealing, Journal of Magnetism and Magnetic Materials, 416 (2016) 174.
  • R. A Rastabi, A. Ghasemi, M. Tavoosi, M. Ramazani, Magnetic features of Fe-Cr-Co alloys with tailoring chromium content fabricated by spark plasma sintering, Journal of Magnetism and Magnetic Material, 426 (2017) 744.
  • A.H. Bahrami , H. Ghayour S. Sharafi, Evolution of microstructural and magnetic properties of mechanicallyalloyed Fe80−xNi20Six nanostructured powders, Powder Technology, 249 (2013) 7–14.
  • M. S. El-Eskandarany, Mechanical Alloying: Nanotechnology, Materials Science and Powder Metallurgy, second ed. Elsevier, Oxford, 2015.
  • M. Mhadhbi, M. Khitouni, L. Escoda, J.J. Suñol, M. Dammak, Characterization of mechanically alloyed nanocrystalline Fe(Al): crystallite size and dislocation density, Journal of Nanomaterials, 2010 (2010) Article ID 712407.
  • J.S. Benjamin, T.E. Volin, The mechanism of mechanical alloying. Metallurgical Transactions, 5:8 (1974) 1929-1934.
  • M. Rafiei, M. H. Enayati, F. Karimzadeh, The effect of Ti addition on alloying and formation of nanocrystalline structure in Fe–Al system. Journal of Material Science, 45:15 (2010) 4058-4062.
  • S. Arunkumar, P. Kumaravel, C. Velmurugan, V. Senthilkumar, Microstructures and mechanical properties of nanocrystalline NiTi intermetallics formed by mechanosynthesis. International Journal of Minerals, Metallurgy and Materials, 25:1 (2018): 80-87.

Mekanik Alaşımlama ile Üretilen Nanokristal Fe60Al30Cu10 (at.%) Tozların Yapısal ve Mekanik Özellikleri

Year 2019, Volume: 7 Issue: 1, 184 - 191, 24.03.2019

Barış Avar , Tuncay Şimşek , Musa Göğebakan

https://doi.org/10.29109/gujsc.470909
Cited By: 2

Abstract

Bu çalışmada, nanoyapılı
Fe (Al,Cu) katı çözeltisi, elementel tozların mekanik alaşımlama (MA) işlemi ile
sentezlenmiştir. Toz karışımlar, 50 saatlik öğütme süresince çeşitli zaman
aralıklarında gezegensel bilyeli değirmende öğütülmüştür. Numunelerin yapısal
ve mekanik özellikleri X-ışını
difraksiyonu (XRD), taramalı elektron mikroskobu/ enerji dağılımlı X-ışını
spektroskopisi (SEM/ EDX) ve Vickers mikrosertlik (HV) testi ile incelenmiştir.
10 saatlik öğütme işleminden sonra bütün Al ve Cu atomları ymk-Fe (Al,Cu) katı
çözeltisini oluşturmak üzere Fe kafesi içerinde çözünmüştür. Toz alaşımların
parçacık morfolojisi öğütme süreleri boyunca soğuk kaynaklanma, kırılma ve
kararlı durum aşamalarını göstermiştir. 50 saatlik öğütme işleminden sonra
parçacık boyutu ve kristalit boyutu, sırasıyla ~ 500 nm ve ~ 6 nm’ ye düşmüştür.
Bununla birlikte, mikrosertlik değerleri artan öğütme süresiyle birlikte artmıştır.

Keywords

Mekanik alaşımlama Fe-Al-Cu alaşımı XRD SEM Vickers sertlik

References

  • Inoue, A., Kimura, H. Bulk amorphous, nanocrystalline and nanoquasicrystalline aluminium alloys. Aerospace Materials (Editörler: Brian Cantor , Patrick Grant , and Hazel Assender). Institute of Physics Publishing, London, UK. s.150-169. (2001).
  • C. Suryanarayana, A. Inoue, Bulk Metallic Glasses. CRC Press - Taylor & Francis Group, USA. (2011) 1-542.
  • C.C. Koch, Structural nanocrystalline materials: an overview. Journal of Materials Science, 42 (2007) 1403-1414.
  • R.W. Siegel, G.E. Fougere, Mechanical properties of nanocrystalline materials. Nanostructured Materials, 6 (1995) 205–216.
  • M.A Willard, M. Daniil, Nanocrystalline soft magnetic alloys two decades of progress. Handbook of Magnetic Materials, 21 (2013) 173-342.
  • C. Suryanarayana, Mechanical alloying and milling, Progress in Materials Science. 46 (2001) 1–184.
  • S. Enzo, R. Frattini, R. Gupta, X-ray powder diffraction and Mossbauer study of nanocrystalline Fe-Al prepared by mechanical alloying. Acta Materialia, 44 (1996) 3105-3113.
  • E.P. Yelsukov, G.A. Dorofeev, Mechanical alloying in binary Fe-M (M=C, B, Al, Si,Ge, Sn) systems. Journal of Materials Science, 39 (2004) 5071-5079.
  • Q. Zeng, I. Baker, Magnetic properties and thermal ordering of mechanically alloyed Fe-40 at.% Al. Intermetallics, 14 (2006) 396-405.
  • B. Avar, M. Gogebakan, S. Ozcan, S. Kerli, Structural, Mechanical and magnetic properties of fe – 40-at.% al powders during mechanical alloying. Journal of the Korean Physical Society, 65:5 (2014), 664-670.
  • J. Eckert, J.C. Holzer, W.L. Johnson, Thermal stability and grain growth behavior of mechanically alloyed nanocrystalline Fe-Cu alloys. Journal of Applied Physics, 73: (1993) 131.
  • M. Krifa, M. Mhadhbi, L. Escoda, J. Saurina, J.J. Suñol, N. Llorca-Isern, C. Artieda-Guzmán, M. Khitouni, Phase transformations during mechanical alloying of Fe–30% Al–20% Cu. Powder Technology, 246 (2013) 117-124.
  • M. Krifa, M. Mhadhbi, L. Escoda, J.M. Guell, J.J. Suñol, N. Llorca-Isern, C. Artieda-Guzmán, M. Khitouni, Nanocrystalline (Fe60Al40) 80Cu20 alloy prepared by mechanical alloying. Journal of Alloys and Compounds, 554 (2013): 51-58.
  • R.A. Rastabi, A. Ghasemi, M. Tavoosi, T. Sodaee, Magnetic characterization of nanocrystalline Fe80−xCrxCo20 (15≤x≤35) alloys during milling and subsequent annealing, Journal of Magnetism and Magnetic Materials, 416 (2016) 174.
  • R. A Rastabi, A. Ghasemi, M. Tavoosi, M. Ramazani, Magnetic features of Fe-Cr-Co alloys with tailoring chromium content fabricated by spark plasma sintering, Journal of Magnetism and Magnetic Material, 426 (2017) 744.
  • A.H. Bahrami , H. Ghayour S. Sharafi, Evolution of microstructural and magnetic properties of mechanicallyalloyed Fe80−xNi20Six nanostructured powders, Powder Technology, 249 (2013) 7–14.
  • M. S. El-Eskandarany, Mechanical Alloying: Nanotechnology, Materials Science and Powder Metallurgy, second ed. Elsevier, Oxford, 2015.
  • M. Mhadhbi, M. Khitouni, L. Escoda, J.J. Suñol, M. Dammak, Characterization of mechanically alloyed nanocrystalline Fe(Al): crystallite size and dislocation density, Journal of Nanomaterials, 2010 (2010) Article ID 712407.
  • J.S. Benjamin, T.E. Volin, The mechanism of mechanical alloying. Metallurgical Transactions, 5:8 (1974) 1929-1934.
  • M. Rafiei, M. H. Enayati, F. Karimzadeh, The effect of Ti addition on alloying and formation of nanocrystalline structure in Fe–Al system. Journal of Material Science, 45:15 (2010) 4058-4062.
  • S. Arunkumar, P. Kumaravel, C. Velmurugan, V. Senthilkumar, Microstructures and mechanical properties of nanocrystalline NiTi intermetallics formed by mechanosynthesis. International Journal of Minerals, Metallurgy and Materials, 25:1 (2018): 80-87.
There are 21 citations in total.

Details

Primary Language Turkish
Subjects Metrology, Applied and Industrial Physics, Engineering
Journal Section Tasarım ve Teknoloji
Authors

Barış Avar 0000-0002-6234-5448

Tuncay Şimşek 0000-0002-4683-0152

Musa Göğebakan This is me 0000-0002-6234-5448

Publication Date March 24, 2019
Submission Date October 15, 2018
Published in Issue Year 2019 Volume: 7 Issue: 1

Cite

APA Avar, B., Şimşek, T., & Göğebakan, M. (2019). Mekanik Alaşımlama ile Üretilen Nanokristal Fe60Al30Cu10 (at.%) Tozların Yapısal ve Mekanik Özellikleri. Gazi University Journal of Science Part C: Design and Technology, 7(1), 184-191. https://doi.org/10.29109/gujsc.470909

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