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Relationships between the reinforcement properties and the crystallization of MMc

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Języki publikacji
EN
Abstrakty
EN
Occurrence of a reinforcing phase in a cooling composite casting causes that its crystallization goes differently as compared to the casting without reinforcing (of traditional design). This affects the forming process of the composite structure since the moment of mixing of the components until total solidification of the composite matrix. The present paper aims at presenting several problems related to crystallization of composite castings (particle reinforced and with saturated reinforcement) that have been the subjects of the research work performed by the team of the Foundry Section of the Poznań University of Technology. The review displays the spheres of the technology of composite casting materials that are well known and the ones that require more detailed research.
Rocznik
Strony
59--64
Opis fizyczny
Bibliogr. 14 poz., rys., tab., wykr.
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autor
autor
autor
Bibliografia
  • [1] Mochnacki B., Suchy J.S: Modelling and simulation of cast solidification, PWN Warszawa 1993 (in Polish)
  • [2] Cholewa M.: Experimental and simulation test sof composite aluminium. Archives of Foundry No 14/2004, p. 627-635 (in Polish)
  • [3] Grabian J.: The saturation of reinforcement with ceramic disordered fibres during the production of cast of metal composites. Szczecin, Wyd. W.S.M. 2001 (in Polish)
  • [4] Jackowski J.:Porosity of the castings made of metal-matrix composites with saturated reinforcement, Wyd. PP, Poznań 2004 (in Polish)
  • [5] Jackowski J., Szweycer M., Tomaszewski T.: The effect of karbon fibre on nucleation of the phases of AlSi11 - alloy as a composite matrix. Composite No 10/2004, p. 143-146 (in Polish)
  • [6] Szweycer M., Jackowski J.: Secondary agglomerates in suspension composite. Solidification of Metals and Alloys, No 24/1995, p. 119-124 (in Polish)
  • [7] Missol W.: Interfacial energies in metals, Katowice 1975 (in Polish)
  • [8] Chmiel J., Grabian J., Jackowski J., Szweycer M.: The effect of reinforcement on nucleation of the phasys In metal-matrix alloy AlSi11. Kraków-Dobczyce-Praszka, 1998, p. 81-84 (in Polish)
  • [9] Szweycer M., Gawdzińska K., Jackowski J.: Defects in metal-matrix cast composites against classification of the defects in the casting made of classical materials. Archives of Foundry No 11/ 2004, p. 247-256 (in Polish)
  • [10] Szweycer M., Jackowski J.: Surface phenomena and the defects of structure of suspended metal composites. Mater. Proc. "Surfach phenomena in foundry proceses", Poznań-Kołobrzeg 1996, p. 221-227 (in Polish)
  • [11] Dolata-Grosz A., Wieczorek J., Śleziona J., Dyzia M.: Possibilities of the use of vacuous Technologies for composite mixture quality rising. Archives of Foundry No 18/2006, p. 285-290 (in Polish)
  • [12] Jackowski J.: Gas occlusion in casted saturated composites. Composites No 4/2002, p. 180-184 (in Polish)
  • [13] Cholewa M.: Examples of assumption in solidification process analysis for dispersive cast composites. Composites No 6/2006, p. 39-44 (in Polish)
  • [14] Konopka Z., Cisowska M.: Castability of the AlMg10 alloy matrix composites with graphite particles. Composites No 3/2003, p. 359-362 (in Polish)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPZ3-0028-0012
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