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Preparation of porous Al2O3-Ti-C perform by combustion synthesis

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Języki publikacji
EN
Abstrakty
EN
Using combustion synthesis porous ceramic preforms for composite reinforcing were produced. Prepared mixture of alumina Saffil fibres, Ti powder and graphite flakes, after drying were placed in waveguide of microwave reactor. Supplied with constant power of 540W magnetron ignited and maintained reaction in flowing stream of CO2 gas. Al2O3 fibres should improve preliminary endurance of perform, whereas Ti powder processed to hard titanium carbides and oxides. During microwave heating ignited plasma additionally improve process and partly fused metallic Ti. Recorded temperature curves were similar for various samples. The highest synthesis temperature revealed samples containing 10% of Al2O3 , 10% of Ti and 5% of graphite, all percentages atomic. Microscopic observation showed considerable microstructure inhomogeneity of some samples. Both irregular component ordering and partly processed Ti particles inside preform exclude them for subsequent infiltration. Chemical analyze EDS of Ti based compounds partly confirmed work purpose, evidencing presence of Ti oxides and carbides. Independently of graphite content these compounds formed folded strips around solid or empty volume. Depends on CO2 availability, reaction could be slowed down resulting in more compacted Ti compounds. Created as a result of combustion synthesis Ti compound after infiltration with liquid metal properly bounded with the matrix. It could be assumed that redox reaction proceeded and on surface of Ti compound alumina and Al-Ti compounds were created. The preforms of proper strength and homogeneous structure were infiltrated with AlSi7Mg by squeeze casting method. In relation to typical composite reinforced only with fibres no significant increase of defects quantity was observed. Preliminary examination of mechanical properties confirmed that assumed work purpose is reasonable.
Rocznik
Strony
69--72
Opis fizyczny
Bibliogr. 14 poz., rys., wykr.
Twórcy
autor
autor
Bibliografia
  • [1] E. Fraś, A. Janas, A. Kolbus: Coast in situ aluminium matrix composite reinforced with titanium boride particles, COMPOSITES, 1(2001)1, 23-27.
  • [2] Yaodong Liu, Wei Liu: Mechanical alloying and spark plasma sintering of the intermetallic compound Ti50Al50, Journal of Alloys and Compounds, 440, Issues 1-2, (2007), 154-157.
  • [3] F. Zhang, L. Lu, M. O. Lai: Study of thermal stability of mechanically alloyed Ti-75% Al powders, Journal of Alloys and Compounds, 297, Issues 1-2, (2000), 211-218.
  • [4] S. Djanarthany, J.-C. Viala, J. Bouix: An overview of monolithic titanium aluminides based on Ti3Al and TiAl, Materials Chemistry and Physics, 72, Issue 3, (2001), 301-319.
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  • [6] M. Kostecki, A. Olszyna: Modification of mechanical properties of Ti-Al intermetallic matrix by introducing TiB2 ceramic, Composites 6(2006), 65-71.
  • [7] L. M. Peng , J. H. Wang, H. Li, J. H. Zhao, L. H. He: Synthesis and microstructural characterization of Ti-Al3Ti metal-intermetallic laminate (MIL) composites, Scripta Materialia 52 (2005) 243-248.
  • [8] Jinkeun Oh, Sung Gyu Pyo, Sunghak Lee, Nack J. Kim: Fabrication of multilayered titanium aluminide sheets by selfpropagating high-temperature synthesis reaction using hot rolling and heat treatment, Journa; of Materials Science 38 (2003) 3647 - 3651.
  • [9] Jian-Guo Luo, Viola L. Acoff: Using cold roll bonding and annealing to process Ti/Al multi-layered composites from elemental foils, Materials Science and Engineering A 379 (2004) 164-172.
  • [10] Yaodong Liu, Wei Liu: Mechanical alloying and spark plasma sintering of the intermetallic compound Ti50Al50, Journal of Alloys and Compounds, 440, Issues 1-2, (2007), 154-157.
  • [11] A.Dudek, Z.Nitkiewicz: Characteristics of microstructure in composite surface layers, Archives of foundry Engineering, vol.8, issue 1, 2008, 75-78.
  • [12] Jokisaari J. R., Bhaduri S., Bhaduri S. B.: Microwave activated combustion synthesis of titanium aluminides, Materials Science & Engineering, A394, 2005, s. 385-392.
  • [13] K.Naplocha, K.Granat: Reaction synthesis and microstructure of Al-Ti perform for composite reinforcing, Archives of foundry Engineering, vol.8, issue 1, 2008, 227-232.
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Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPZ1-0063-0016
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