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Tytuł artykułu

Quality Index of the AlSi7Mg0.3 Aluminium Casting Alloy Depending on the Heat Treatment Parameters

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Issues connected with high quality casting alloys are important for responsible construction elements working in hard conditions. Traditionally, the quality of aluminium casting alloy refers to such microstructure properties as the presence of inclusions and intermetallic phases or porosity. At present, in most cases, Quality index refers to the level of mechanical properties – especially strength parameters, e.g.: UTS, YS, HB, E (Young’s Modulus), K1c (stress intensity factor). Quality indexes are often presented as a function of density. However, generally it is known, that operating durability of construction elements depends both on the strength and plastic of the material. Therefore, for several years now, in specialist literature, the concept of quality index (QI) was present, combines these two important qualities of construction material. The work presents the results of QI research for casting hypoeutectic silumin type EN AC-42100 (EN AC-AlSi7Mg0.3), depending on different variants of heat treatment, including jet cooling during solution treatment.
Rocznik
Strony
25--28
Opis fizyczny
Bibliogr. 20 poz., tab., wykr., wzory
Twórcy
autor
  • Foundry Research Institute, Zakopiańska 73 Str., 30-418 Kraków, Poland
autor
  • AGH University of Science and Technology, Department of Moulding Materials, Mould Technology and Cast Non-Ferrous Metals, Faculty of Foundry Engineering, Reymonta 23 Str., 30-059 Kraków, Poland
autor
  • AGH University of Science and Technology, Department of Moulding Materials, Mould Technology and Cast Non-Ferrous Metals, Faculty of Foundry Engineering, Reymonta 23 Str., 30-059 Kraków, Poland
  • AGH University of Science and Technology, Department of Moulding Materials, Mould Technology and Cast Non-Ferrous Metals, Faculty of Foundry Engineering, Reymonta 23 Str., 30-059 Kraków, Poland
Bibliografia
  • [1] Knych, T., Uliasz P., Wiecheć J. & Podeszwa K. (2014). Research on the Selection of Parameters of Solution Heat Treatment of the Commercial Casting Aluminium Alloy AlSi7Mg0.3 Type. Archives of Foundry Engineering. 14(special 4), 59-62.
  • [2] Alexopoulos, N.D. & Pantelakis, S.G. (2004). Quality Assessment of Artificially Aged A357 Aluminum Alloys Cast Ingots by Introducing Approximate Expressions of the Quality Index QD. Metallurgical and Materials Transactions A. 35A(10), 3079-3089.
  • [3] Drouzy, M., Jacob, S. & Richard, M. (1980). Interpretation of Tensile Results by Means of Quality Index and Probable Yield Strength. AFS Int. Cast Met. J. 5(2), 43-50.
  • [4] Din, T., Rashid, A. & Campbell, J. (1996). High Strength Aerospace Casting Alloys: Quality Factor Assessment. Materials Science and Technology. 12, 269-273.
  • [5] Alexopoulos, N.D. & Pantelakis, S.G. (2003). Evaluation of the Effects of Variations in Chemical Composition on the Quality of Al-Si-Mg, Al-Cu, and Al-Zn-Mg Cast Aluminum. Journal of Materials Engineering Performance. 12(2), 196-205.
  • [6] Alexopoulos, N. D. & Pantelakis, S. G. (2004). Quality evaluation of A357 cast aluminum alloy specimens subjected to different artificial aging treatment. Materials & Design Journal. (25), 419-430.
  • [7] Alexopoulos, N. D. & Pantelakis S.G. (2004). Quality assessment of artificially aged A357 aluminum alloy cast ingots by introducing approximate expressions of the quality index Q D. Metallurgical and Materials Transactions A. 35(10), 3079-3089.
  • [8] Jacob, S. (1999). Quality Index in the Prediction of Properties of Aluminum Castings. AFS Transactions, Silver Anniversary paper. 107, 811-818.
  • [9] Orłowicz, A.W. & Mróz, M. (2004). Indicator of the quality of castings from Al-Si alloy. Archives of Foundry. 4(14), 363-368. (in Polish).
  • [10] Mohamed, A., Fawzy S. (2010). Performance of Aluminum-Silicon Cast Alloys. Saabrücken: LAP LAMBERT Academic Publishing GmbH & Co. KG (in Germany).
  • [11] Pantelakis, S.G, Alexopoulos, N.D & Chamos, A.N. (2007). Mechanical performance evaluation of cast magnesium alloys for automotive and aeronautical applications. Journal of Engineering Materials and Technology, Transactions of the ASME. 129(3), 422-430.
  • [12] Ashby, M., Shercliff, H., Cebon, D. (2011). Material Engineering. Tom 1 i 2. Łódź: Wydawnictwo GALAKTYKA. (in Polish).
  • [13] Pysz, S., Czekaj, E., Żuczek, R., Maj, M. & Piekło J. (2016). Low Cycle Mechanical and Fatigue Properties of AlZnMgCu Alloy. Archives of Foundry Engineering. 16(1), 55-60.
  • [14] Anon „Advanced Aluminum Precision Casting For Integrally Stiffened Net-Shape Components (ADVACAST). Final Technical Report of the BRITE Project 4084, Brussels, Belgium, 1996.
  • [15] ASTM 108/B108M-12: Standard Specification for Aluminium-Alloy Permanent Mold Castings.
  • [16] JIS H 5202:2010. Aluminium alloy castings. Japanise Industrial Standarts Committee.
  • [17] BS 1490-1988: Specification for aluminium and aluminium alloy ingots and castings for general engineering purposes.
  • [18] PN EN-1706:2011 Aluminium and its alloys. Castings. The chemical composition and mechanical properties. (in Polish).
  • [19] Ambos, E., Besser, W., Honsel, W., Schulze, M. & Franz P.Ch. (2011). JetCooling – Arbeitsweise, Wirkung und Ergebnisse. Giesserei-Rundschau, 58, 57-61.
  • [20] Górny, Z., Kluska-Nawarecka, S., Czekaj, E., & Saja, K. (2011). Aplication of microjet in heat treatment of aluminium bronzes. Archives of Foundry Engineering, 11(2), 35-40.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e3017acf-2ecc-4dc8-8c47-7d0d5b69dccf
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