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Year 2012, Volume: 25 Issue: 1, 199 - 205, 24.01.2012

Abstract

References

  • Morsi, K., “Review: Reaction synthesis processing of Ni–Al intermetallic materials”, Mater Sci Eng A; 299: 1–15 (2001).
  • Sikka, V. K., Deevi, S. C., Viswanathan, S., Swindeman, R. W., Santella, M. L., “Advances in processing of Ni3Al-based intermetallics and applications”, Intermetallics, 8: 1329–37, (2000).
  • Li, S., Feng, D., Luo, H., “Microstructure and abrasive wear performance of chromium carbide reinforced Ni3Al matrix composite coating”, Surface & Coatings Technology, 201: 4542–4546, (2007).
  • Peng, L. M., “Fabrication and mechanical properties of microalloyed and ceramic particulate reinforced NiAl-based alloys”, Journal of Alloys and Compounds, 440: 150–153, (2007).
  • Li, S. P., Luo, H. L., Feng, D., Cao, X., Zhang, X. E., “Abrasive Performance of Chromium Carbide Reinforced Ni3Al Matrix Composite Cladding”, Journal of Iron and Steel Research, 16(5): 87-91, (2009).
  • Moussa, S. O., Morsi, K., “High-temperature oxidation of reactively processed nickel aluminide intermetallics”, Journal of Alloys and Compounds, 426: 136–143, (2006).
  • Deevi, S. C., Sikka, V. K., “Nickel and iron aluminides: an overview on properties, processing, and applications”, Intermetallics, 4: 357–75, (1996).
  • Akdoğan, A., “Superalloys”, Access: www.yildiz.edu.tr/~akdogan/lessons/malzem e2/Super_Alasimlar.pdf., (2010).
  • Çay, V. V., Ozan, S., “Superalloys and Its Applications ”, Firat University, Technical Education Faculty, Metal Education Department, Elazığ, Research in the East Anatolia Region, p. 178, (2005).
  • Zhang, J. X., Chen, Z., Liang, M. J., “Microscopic phase-field simulation for precipitation behavior of Ni-Al-Cr alloy during two-step aging”, Transactions of Nonferrous Metals Society of China, vol. 18: 930-937, (2008).
  • Pe´rez, P., Gonza´lez, P., Garce´s, G., Caruana, G., Adeva, P., “Microstructure and mechanical properties of a rapidly solidified Ni3Al–Cr alloy after thermal treatments”, Journal of Alloys and Compounds, 302: 137–145, (1999).
  • Ayyıldız, R., “Ni-Cr alloy the effect of the rate of contribution to the mechanical properties of molybdenum”, Firat University, Institue of Science, Master's thesis, Elazığ, pp. 26-27, (2008).
  • Yonetken, A., Erol, A., Talas, S., “Microwave Sintering of Electroless Ni Plated SiC Powders”, Material Science and Engineering Conference, 1-4 September, Nurnberg, Germany (2008).

Production of Ni3Al-Cr Composite and Investigation of Mechanical Properties

Year 2012, Volume: 25 Issue: 1, 199 - 205, 24.01.2012

Abstract

Nickel aluminide intermetallic compounds possess attractive properties that make them good candidates for high temperature structural applications. It is known that Ni3Al intermetallics are commonly used in various application fields with the addition of Cr, in particular as well as elements such as Ti, Co, Mo and Fe which are related to this group for improving properties thereof. Given this information, sintering process was used in this study by adding different amounts of Cr powder to Ni3Al powder mixture. When the properties of the sample after sintering were examined we were able to reveal the effects of Cr on Ni3Al and consider 3% Cr added compositions as the most suitable ratio in terms of mechanical properties. Analyses were conducted metallographically on the samples after sintering, the densities were calculated, hardness and shear strengths were determined. According to the data 3% Cr added composition had 5,23 gr/cm3 of density, 153,9 HB hardness values and displayed 307 MPa shear strength. 

References

  • Morsi, K., “Review: Reaction synthesis processing of Ni–Al intermetallic materials”, Mater Sci Eng A; 299: 1–15 (2001).
  • Sikka, V. K., Deevi, S. C., Viswanathan, S., Swindeman, R. W., Santella, M. L., “Advances in processing of Ni3Al-based intermetallics and applications”, Intermetallics, 8: 1329–37, (2000).
  • Li, S., Feng, D., Luo, H., “Microstructure and abrasive wear performance of chromium carbide reinforced Ni3Al matrix composite coating”, Surface & Coatings Technology, 201: 4542–4546, (2007).
  • Peng, L. M., “Fabrication and mechanical properties of microalloyed and ceramic particulate reinforced NiAl-based alloys”, Journal of Alloys and Compounds, 440: 150–153, (2007).
  • Li, S. P., Luo, H. L., Feng, D., Cao, X., Zhang, X. E., “Abrasive Performance of Chromium Carbide Reinforced Ni3Al Matrix Composite Cladding”, Journal of Iron and Steel Research, 16(5): 87-91, (2009).
  • Moussa, S. O., Morsi, K., “High-temperature oxidation of reactively processed nickel aluminide intermetallics”, Journal of Alloys and Compounds, 426: 136–143, (2006).
  • Deevi, S. C., Sikka, V. K., “Nickel and iron aluminides: an overview on properties, processing, and applications”, Intermetallics, 4: 357–75, (1996).
  • Akdoğan, A., “Superalloys”, Access: www.yildiz.edu.tr/~akdogan/lessons/malzem e2/Super_Alasimlar.pdf., (2010).
  • Çay, V. V., Ozan, S., “Superalloys and Its Applications ”, Firat University, Technical Education Faculty, Metal Education Department, Elazığ, Research in the East Anatolia Region, p. 178, (2005).
  • Zhang, J. X., Chen, Z., Liang, M. J., “Microscopic phase-field simulation for precipitation behavior of Ni-Al-Cr alloy during two-step aging”, Transactions of Nonferrous Metals Society of China, vol. 18: 930-937, (2008).
  • Pe´rez, P., Gonza´lez, P., Garce´s, G., Caruana, G., Adeva, P., “Microstructure and mechanical properties of a rapidly solidified Ni3Al–Cr alloy after thermal treatments”, Journal of Alloys and Compounds, 302: 137–145, (1999).
  • Ayyıldız, R., “Ni-Cr alloy the effect of the rate of contribution to the mechanical properties of molybdenum”, Firat University, Institue of Science, Master's thesis, Elazığ, pp. 26-27, (2008).
  • Yonetken, A., Erol, A., Talas, S., “Microwave Sintering of Electroless Ni Plated SiC Powders”, Material Science and Engineering Conference, 1-4 September, Nurnberg, Germany (2008).
There are 13 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Mechanical Engineering
Authors

Ahmet Yonetken

İsmail Yıldız

Ayhan Erol

Publication Date January 24, 2012
Published in Issue Year 2012 Volume: 25 Issue: 1

Cite

APA Yonetken, A., Yıldız, İ., & Erol, A. (2012). Production of Ni3Al-Cr Composite and Investigation of Mechanical Properties. Gazi University Journal of Science, 25(1), 199-205.
AMA Yonetken A, Yıldız İ, Erol A. Production of Ni3Al-Cr Composite and Investigation of Mechanical Properties. Gazi University Journal of Science. January 2012;25(1):199-205.
Chicago Yonetken, Ahmet, İsmail Yıldız, and Ayhan Erol. “Production of Ni3Al-Cr Composite and Investigation of Mechanical Properties”. Gazi University Journal of Science 25, no. 1 (January 2012): 199-205.
EndNote Yonetken A, Yıldız İ, Erol A (January 1, 2012) Production of Ni3Al-Cr Composite and Investigation of Mechanical Properties. Gazi University Journal of Science 25 1 199–205.
IEEE A. Yonetken, İ. Yıldız, and A. Erol, “Production of Ni3Al-Cr Composite and Investigation of Mechanical Properties”, Gazi University Journal of Science, vol. 25, no. 1, pp. 199–205, 2012.
ISNAD Yonetken, Ahmet et al. “Production of Ni3Al-Cr Composite and Investigation of Mechanical Properties”. Gazi University Journal of Science 25/1 (January 2012), 199-205.
JAMA Yonetken A, Yıldız İ, Erol A. Production of Ni3Al-Cr Composite and Investigation of Mechanical Properties. Gazi University Journal of Science. 2012;25:199–205.
MLA Yonetken, Ahmet et al. “Production of Ni3Al-Cr Composite and Investigation of Mechanical Properties”. Gazi University Journal of Science, vol. 25, no. 1, 2012, pp. 199-05.
Vancouver Yonetken A, Yıldız İ, Erol A. Production of Ni3Al-Cr Composite and Investigation of Mechanical Properties. Gazi University Journal of Science. 2012;25(1):199-205.