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Purpose: The aim of the work was to investigate the microstructure, thermal stability and some mechanical properties of a new Fe41Ni39P10Si5B5 glass forming alloy. Design/methodology/approach: A five component Fe41Ni39P10Si5B5 alloy was produced using arc melting in argon protective atmosphere from of pure elements 99.95 wt. % Fe, 99.95 wt. % Ni, 99,999 wt. % Si and Fe-P, Fe-B, Ni-P, Ni-B master alloys. The alloy was melt spun. The microstructure of the arc melted droplet is investigated in scanning electron microscope with EDS. The melt spun ribbon was investigated by X-ray diffraction, micro-hardness measurement, dynamic mechanical analysis (DMA), differential scanning calorimetry (DSC) and the microstructure of the melt spun ribbon at the beginning of crystallization process was observed using high resolution transmission electron microscope (HRTEM). Findings: The arc-melt alloy consisted of four phase constituents that provided amorphization during the melt spinning process. The alloy has relatively high hardness of 720HV and the elastic modulus on the level of 102 GPa. The elastic modulus is stable up to ca. 500 K and after it shows glass transition at 603 K. Crystallization causes temporary increase of the elastic modulus and finally causes brittleness of the sample. The crystallization was found to have the two stages and it begins with formation of bcc iron-base nano-metric crystals. Research limitations/implications: It has been shown that the multi-component Fe-Ni-P-Si-B system provides the multiphase composition and enables relatively easy amorphization of the Fe41Ni39P10Si5B5 alloy through the melt-spinning method. It is also possible to control the microstructure and the mechanical properties through the appropriate heat treatment. The existence of glass transformation in the alloy provides possibility of consolidation non-bulk material into a bulk sape. Practical implications: The work reports about the glass forming alloy of relatively good mechanical properties produced from a low-cost commercial purity precursors. The future investigations on the alloy can provide the basis to the processing and manufacturing soft-magnetic bulk parts of a very low coercivity. Originality/value: The study provides an original information about the primary structure of the arc-melt Fe41Ni39P10Si5B5 alloy as well as about the microstructure, mechanical properties and thermal stability of meltspun ribbon.
Wydawca
Rocznik
Tom
Strony
35--38
Opis fizyczny
Bibliogr. 15 poz.
Twórcy
autor
autor
autor
autor
- Pedagogical University, ul. Podchorążych 2, 30-084 Kraków, Poland, kziewiec@ap.krakow.pl
Bibliografia
- [1] H. Warlimont, Amorphous metals driving materials and process innovations, Materials Science and Engineering A304-306 (2001) 61-61.
- [2] A. Inoue, B.L. Shen, C.T. Chang, Super-High Strength of over 4000 MPa for Fe-based Bulk Glassy Alloys in [(Fe1-xCox)0.75B0.2Si0.05]96Nb4 System, Acta Materialia 52 (2004) 4093-4099.
- [3] T. Kulik, Nanocrystallization of metallic glasses, Journal of Non-Crystalline Solids 287 (2001) 145-161.
- [4] B. Kostrubiec, R. Wiśniewski, J. Rasek, Crystallisation kinetics and magnetic properties of a Co-based amorphous alloy, Journal of Achievements in Materials and Manufacturing Engineering 16 (2006) 30-34.
- [5] S. Lesz, D. Szewieczek, J.E. Frckowiak, Structure and magnetic properties of amorphous and nanocrystalline Fe85.4Hf1.4B13.2 alloy, Journal of Achievements in Materials and Manufacturing Engineering 19 (2006) 29-34.
- [6] T. Poloczek, S. Griner, R. Nowosielski, Crystallisation process of Ni-base metallic glasses by electrical resistance measurements, Archives of Materials Science and Engineering 28/7 (2007) 353-356.
- [7] S. Lesz, R. Nowosielski, A. Zajdel, B. Kosturbiec, Z. Stokłosa, Investigations of crystallization behaviour of Co80Si9B11 amorphous alloy, Archives of Materials Science and Engineering 28/2 (2007) 91-97.
- [8] T.D. Shen, R.B. Swarz, Bulk ferromagnetic glasses in the Fe-Ni-P-B system, Acta Materialia 49 (2001) 837-847.
- [9] R. Nowosielski, R. Bobilas, P. Ochin, Z. Stokłosa, Thermal and magnetic properties of selected Fe-based metallic glasses, Archives of Materials Science and Engineering 30/1 (2008) 13-16.
- [10] K. Ziewiec, K. Bryła, A. Błachowski, K. Ruebenbauer, K. Prusik, S. Kąc, T. Kozieł, Properties and microstructure of the new Fe-P-Si-base glass forming alloys, Journal of Microscopy, in-press.
- [11] K. Ziewiec, J. Dutkiewicz, A. Ziewiec, S. Kąc, The microstructure and mechanical properties of Ni78Ag2P20 alloy, Archives of Materials Science and Engineering 28/11 (2007) 657-660.
- [12] K. Ziewiec, J. Lelątko, P. Pączkowski, K. Bryła, Devitrification and Nano-Crystalline/Amorphous Composite Formation in Ni64Cu9Fe8P19 Glassy Alloy at Elevated Temperatures, Solid State Phoenomena 130 (2007) 167-170.
- [13] K. Ziewiec, Properties characterization of the Cu68.5Ni12P19.5 alloy at elevated temperatures, Journal of Non-Crystalline Solids 354/33 (2008) 4019-4023.
- [14] K. Lu, Nanocrystalline metals crystallized from amorphous solids: nanocrystallization, structure, and properties, Materials Science and Engineering R16 (1996) 161-221.
- [15] C.Y. Lin, T.S. Chin, S.X. Zhou, Z.C. Lu, L. Wang, F.F. Chen, M.X. Pan, W.H. Wang, Magnetic properties and glass-forming ability of modified Fe-P-Si-B bulk amorphous alloys, Journal of Magnetism and Magnetic Materials 282 (2004) 156-162.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BSL7-0033-0029