Ordering process of Fe28Al and Fe28Al5Cr alloys

Pająk, L.; Kansy, J.; Hanc, A.; Dercz, G.; Jabłońska, M.

Artykuł - szczegóły

Tytuł artykułu

Ordering process of Fe28Al and Fe28Al5Cr alloys

Autorzy

Pająk L. , Kansy J. , Hanc A. , Dercz G. , Jabłońska M.

Wybrane pełne teksty z tego czasopisma

https://archivesmse.org/resources/html/cms/MAINPAGE

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Warianty tytułu

Języki publikacji

Abstrakty

Purpose: The comparison of ordering process in Fe28Al and Fe28Al5Cr alloys annealed for 8, 16 and 48 hours at 1000°C was performed. The composition of studied alloys is closed to one of Fe3Al phase. Design/methodology/approach: The studied alloys were melted in induction furnace under vacuum. Next the alloys were gravitatively casted into cylindrical graphite moulds. The alloy samples were annealed at 1000°C for 8, 16 and 48 hours. The ordering process was analyzed by X-ray diffraction,Mössbauerspectroscopy and positron annihilation methods. Findings: Different behaviour of Fe28Al and Fe28Al5Cr alloys during annealing for 8, 16 and 48 hours at 1000°C was found. The Fe3Al phase of DO3 type structure was stated only in the sample of Fe28Al alloy annealed for 48 hours. The FeAl phase appeared to be the main phase in the other samples. Research limitations/implications: The applied investigation methods appeared to be useful in the studies of long range ordering process. Application of Rietveld refinement method enabled the verification of qualitative phase analysis and the determination of lattice constant parameters. Relatively great grain sizes in studied samples made the exact determination of long range ordering parameters difficult. Practical implications: The information on the phase transformation during the heat treatment of alloys, including long range ordering, are of prime importance for technological processing. The structures with long range ordering significantly affect the properties of alloys with intermetallic phases. Originality/value: Good correlation between the results of X-ray diffraction, Mossbauer spectroscopy and positron annihilation methods were obtained. Addition of chromium made the long range ordering process slower.

Słowa kluczowe

stopy metaliczne analiza fazowa aluminidek żelaza

metallic alloys X-ray phase analysis iron aluminides long range ordering Rietveld refinement Mössbauer spectroscopy

Wydawca

International OCSCO World Press

Czasopismo

Archives of Materials Science and Engineering

Rocznik

2008

Tom

Vol. 30, nr 2

Strony

81--84

Opis fizyczny

Bibliogr. 20 poz.

Twórcy

autor

Pająk L.

autor

Kansy J.

autor

Hanc A.

autor

Dercz G.

autor

Jabłońska M.

Institute of Materials Science, University of Silesia, ul. Bankowa 12, 40-007 Katowice, Poland, lpajak@us.edu.pl

Bibliografia

[1] S. Kobayashi, S. Zaefferer, A. Schneider, D. Raabe, G. Frommeyer, Optimisation of precipitation for controlling recrystallization of wrought Fe3Al based alloys, Intermetallics 13 (2005) 1296-1303.
[2] Y.D. Huang, L. Froyen, Recovery, recrystalization and grain growth in Fe3Al based alloys, Intermetalics 10 (2002) 443-448.
[3] M. Jabłońska, K. Rodak, G. Niewielski, Characterization of the structure of FeAl alloy after hot deformation, Journal of Achievements in Materials and Manufacturing Engineering 18 (2006) 107-110.
[4] D. Kuc, G. Niewielski, M. Jabłońska, I. Bednarczyk, Deformability and recrystallisation of Fe-Al intermetallic phase - base alloy, Journal of Achievements in Materials and Manufacturing Engineering 20 (2006) 143-146.
[5] D. Kuc, I. Bednarczyk, G. Niewielski, The influence of deformation on the plasticity and structure of Fe3Al - 5Cr alloy, Journal of Achievements in Materials and Manufacturing Engineering 22/1 (2007) 27-30.
[6] P. I. Ferreira, A. A. Couto, J. C. C. de Paola, The effects of chromium addition and heat treatment on the microstructure and tensile properties of Fe-24Al (at. %), Materials Science and Engineering A192/193 (1995) 165-169.
[7] J.W. Lee, C.C. Wu, T.F. Liu, The influence of Cr alloying on microstructures of Fe–Al–Mn–Cr alloys, Scripta Materialia 50 (2004) 1389-1393.
[8] A.O Mekhrabov, et al. Effect of ternary alloying elements addition on atomic ordering characteristics of Fe-Al intermetallics, Acta Materialia 47 (1999) 2067-2075.
[9] Y.D. Huang, W.Y. Yang, Z.Q. Sun, Effect of the alloying element chromium on the room temperature ductility of Fe3Al intermetallics, Intermetallics 9 (2001) 119-124.
[10] A. Chanda, H. Pal, M. De, S. Kajiwara, T. Kikuchi, Charcterisation of microstructure of isothermal martensite formed at low temperature in powder of Fe-23Ni-3.3Mn alloy by Rietveld method, Materials Science and Engineering A265 (1999) 110-116.
[11] A. Chanda, M. De, X-ray characterization of the microstructure of -CuTi alloys by Rietveld’s method, Journal of Alloys and Compounds 313 (2000) 104-114.
[12] L. Pająk, B. Formanek, G. Dercz, Rietveld analysis of intermetallic phases from Ni-Al system, Proceedings of the 11th International Scientific Conference “Achievements in Mechanical and Materials Engineering”, AMME`2002, Gliwice – Zakopane, 2002, 405-408.
[13] L. Pająk, B. Formanek, G. Dercz, Dispersion analysis of NiAl-TiC-Al2O3 composite powder, Proceedings of the 12th International Scientific Conference “Achievements in Mechanical and Materials Engineering”, AMME`2003, Gliwice – Zakopane, 2003, 723-726.
[14] G. Dercz, B. Formanek, K. Prusik, L. Pająk, Microstructure of Ni(Cr)-TiC-Cr3C2-Cr7C3 composite powder, Proceedings of the 13th Scientific International Conference “Achievements in Mechanical and Materials Engineering”, AMME'2005, Gliwice – Wisła, 2005, 99-102.
[15] G. Dercz, K. Prusik, L. Pająk, Sructure investigations of commercial zirconia ceramic powder, Journal of Achievements in Materials and Manufacturing Engineering 18 (2006) 259-262.
[16] R. Nowosielski, R. Babilas, G. Dercz, L. Pająk, Microsructure investigations of Co-Si-B alloy after milling and annealing, Journal of Achievements in Materials and Manufacturing Engineering 23/1 (2007) 59-62.
[17] R. Nowosielski, R. Babilas, G. Dercz, L. Pająk, J. Wrona, Structure and properties of barium ferrite powders prepared by milling and annealing, Archives of Materials Science and Engineering 28/12 (2007) 735-742.
[18] A. Hanc, J.E. Frąckowiak, G. Dercz, L. Pająk. F. Binczyk, Structural Studies on metallic powders from Fe-Al-X (X = Fe, Ni, Cu, Cr) type obtained by the self-decomposition method and electro-magneto-mechanical mill, Solid State Phenomena 130 (2006) 181-184.
[19] B. Szczucka-Lasota, B. Formanek, A. Hernas, L. Pająk, Corrosion resistance of composite HVOF sprayed coatings with FeAl and NiAl intermetallic phases in aggressive environment, Proceedings of the 12th International Scientific Conference “Achievements in Mechanical and Materials Engineering”, AMME`2003, Gliwice – Zakopane, 2003, 889-894.
[20] J. Kansy, A. Hanc, D. Gieblel, M. Jabłońska, Vacancy formation in Fe-Al of B2 and DO3 alloys, Acta Physica Polonica A (2008) (in press).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BSL9-0030-0017