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Usable Properties of AlSi7Mg Alloy after Sodium or Strontium Modification

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper deals with the effect of microstructure diversified by means of variable cooling rate on service properties of AlSi7Mg cast alloy refined traditionally with Dursalit EG 281, grain refining with titanium-boron and modified with sodium and a variant of the same alloy barbotage-refined with argon and simultaneously grain refining with titanium-boron and modified with strontium. For both alloy variants, the castings were subject to T6 thermal treatment (solution heat treatment and artificial aging). It turned out that AlSi7Mg alloy after simultaneous barbotage refining with argon and grain refining with titanium-boron and modified with strontium was characterised with lower values of representative microstructure parameters (SDAS – secondary dendrite arm spacing, λE, lmax) and lower value of the porosity ratio compared to the alloy refined traditionally with Dursalit EG 281 and grain refining with titanium-boron and modified with sodium. The higher values of mechanical properties and fatigue strength parameters were obtained for the alloy simultaneously barbotage-refined with argon and grain refining with titanium-boron and modified with strontium.
Rocznik
Strony
129--132
Opis fizyczny
Bibliogr. 19 poz., il., tab., wykr.
Twórcy
autor
  • Rzeszow University of Technology, Department of Casting and Welding, Rzeszów, Poland
  • Rzeszow University of Technology, Department of Casting and Welding, Rzeszów, Poland
autor
  • Rzeszow University of Technology, Department of Casting and Welding, Rzeszów, Poland
autor
  • Rzeszow University of Technology, Department of Casting and Welding, Rzeszów, Poland
autor
  • Rzeszow University of Technology, Department of Casting and Welding, Rzeszów, Poland
Bibliografia
  • [1] Fuoco, R., Correa, E.R. & de Andrade Bastos, M. (1998). Effect of grain refinement on feeding mechanisms in A356 aluminum alloy. AFS Transactions. 78, 401-409.
  • [2] Easton, M.A. & StJohn, D.H. (2000). The effect of grain refinement on the formation of casting defects in alloy 356 castings. Int. J. Cast Metals Res. 12, 393-408.
  • [3] Kim, W.B., Lee, W.-S., Ye, B.J. & Loper, C.R. Jr. (2000). Effect of casting conditions and grain refinement on hot-tearing behavior in A356 Al alloy. AFS Transactions. 38, 541-546.
  • [4] Pietrowski, S. (2001). Silumins (Siluminy). Łódź: Politechnika Łódzka. (in Polish).
  • [5] Orłowicz, A., Tupaj, M. & Mróz, M. (2008). Effect of cooling rate on the λ2D - parameter with sodium modified AlSi7Mg alloy. Archives of Foundry Engineering. 8(1), 245-248.
  • [6] Orłowicz, A., Tupaj, M. & Mróz, M. (2008). Effect of cooling rate on the structure of hypoeutectic silumin after sodium modification. Rudy i Metale Nieżelazne. 53(7), 425-429.
  • [7] Maier, E. & Lang, G. (1985). Preparation and properties of aluminum casting alloy AlSi7Mg after modification with Na, Sr and Sb (Herstellung und Eigenschaften der Aluminium Gusslegierungen AlSi7Mg unter Berücksichtigung ihrer Veredelung mit Na, Sr und Sb). Aluminium, 61 Jahrgang. 12, 897-906. (in German).
  • [8] Zhang, B., Poirier D.R. & Chen, W. (1999). Microstructural effects on high-cycle fatigue-crack initiation in A356.2 casting alloy. Metallurgical and Materials Transactions A. 30A, 2659-2666.
  • [9] Orłowicz, A. & Mróz, M. (2003). Microstructure and fatigue strength of A 356 alloy castings refined on the surface by rapid crystallization. Zeitschrift fur Metallkunde. 94(12), 1320-1326.
  • [10] Horng, J.H., Lui, T.S. & Chen, L.H. (2001). Effect of area fraction and morphology of silicon particles on fracture behavior of hypoeutectic Al-Si alloys under resonant vibration. Int. J. Cast Metals Res. 14, 121-130.
  • [11] Orłowicz, A., Tupaj, M. & Mróz, M. (2008). Mechanical properties of AlSi7Mg alloy modified with sodium. Archives of Foundry Engineering. 8(1), 241-244.
  • [12] Orłowicz, A.W., Tupaj, M. & Mróz, M. (2006). Selecting of heat treatment parameters for AlSi7Mg0,3 alloy. Archives of Foundry. 6(22), 350-356.
  • [13] Cáceres, C. H. & Wang, Q.G. (1996). Dendrite cell size and ductility of Al-Si-Mg casting alloys: Spear and Gardner revisited. Int. J. Cast Metals Res. 19, 157-162.
  • [14] Spear, R.E. & Gardner, G.R. (1963). Dendrite cell size. AFS Transactions. 71, 209-215.
  • [15] Ronto, V. & Roosz, A. (2001). The effect of cooling rate and composition and com-position on the secondary dendrite arm spacing during solidification Part I: Al-Cu-Si alloy. Int. J. Cast Metals Res. 13, 337-342.
  • [16] Stolarz, J., Madelaine-Dupuich, O. & Magnin, T. (2001). Microstructural factors of low cycle fatigue damage in two phase Al-Si alloys. Materials Science and Engineering A. 299, 275-286.
  • [17] Stolarz, J. & Foct, J. (2001). Specific features of two phase alloys response to cyclic deformation. Materials Science and Engineering A. 319-321, 501-505.
  • [18] Tupaj, M., Orłowicz, A.W., Mróz, M. & Trytek A. (2015). Fatigue Properties of AlSi7Mg Alloy with Diversified Microstructure. Archives of Foundry Engineering. 15(3), 87-90.
  • [19] Mróz, M., Orłowicz, A., Tupaj, M. & Trytek A. (2010). Fatigue of strength of MAR-M509 alloy with structure refined by rapid crystallization. Archives of Foundry Engineering, 10(3), 119-122.
Uwagi
PL
Opracowane ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-adc8e575-b686-4796-96da-755df00285c8
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