Details Details PDF BIBTEX RIS Title Taguchi Approach for Optimization of Parameters that Effect Grain Size of Cast A357 Alloy Journal title Archives of Foundry Engineering Yearbook 2017 Volume vol. 17 Issue No 4 Authors Çolak, M. ; Dışpınar, D. Keywords A357 ; Grain refinement ; Modification ; Taguchi ; Optimization Divisions of PAS Nauki Techniczne Publisher The Katowice Branch of the Polish Academy of Sciences Date 2017 Type Artykuły / Articles Identifier DOI: 10.1515/afe-2017-0127 Source Archives of Foundry Engineering; 2017; vol. 17; No 4 References Stefanescu (null), engineering of casting solidification, Science, 2015. ; Braszczyńska (2014), RE for High Pressure Die Casting of Foundry, Magnesium Alloys Archives Engineering, 29, 49. ; Bryant (1993), Grain Refining and the Aluminium Industry Past Future Aluminium Casthouse Technology, Present, 1. ; Górny (2016), Effect of Titanium and Boron on the Stability of Grain Refinement of Cu Alloy of Foundry, Archives Engineering, 11, 35. ; Nogita (2006), Determination of strontium segregation in modified hypoeutectic Si alloy by micro ray fluorescence analysis, Scripta materialia, 23, 787. ; Mohanty (1995), Mechanism of grain refinement in aluminium, Acta Metallurgica et Materialia, 13. ; Kapisz (2011), Friction and wear studies between cylinder liner and piston ring pair using Taguchi design method in, Advances Engineering Software, 30, 595. ; Arnberg (1982), Klang Intermetallic particles in Ti type master alloys for grain refinement of aluminium, Metals Technology, 14, 7. ; (2004), Quested Understanding mechanisms of grain refinement of aluminium alloys by inoculation and, Materials Science Technology, 20, 69. ; (2013), Spittle Grain refinement in shape casting of aluminium alloys, International Journal of Cast Metals Research. ; Dahle (2001), nucleation and growth in hypoeutectic Si alloys at different strontium levels Metallurgical, Materials Transactions, 22, 949. ; Sigworth (2007), Grain refinement of aluminum casting alloys of, International Journal, 1. ; Cooper (2002), Boot Comparison of Grain Refiner Master Alloys for the Foundry Ltd, null. ; Nielsen (2013), Experiment for quantification of feedability and permeability in industrial aluminium alloys, International Journal of Cast Metals Research, 26. ; Cooper (2003), Characterisation of New Genaration of Grain Refiners for the Foundry Industry Publisher, null, 132. ; Górny (2014), Effect of Modification and Cooling Rate on Primary Grain in Cu Alloy of Foundry, Archives Engineering, 12, 21. ; Dispinar (2008), of permeability of alumium alloys nd Conf Advances in Solidification Process, Measurement Int, 27, 356. ; Cooper (2000), Additive developments in the aluminium industry Publisher, null. ; Cook (1998), Modification of aluminium - silicon foundry alloys metallurgical Co Limited, Scandinavian, 19. ; Easton (1999), Grain refinement of aluminum alloys Part The nucleant and solute paradigms - a review of the literature Metallurgical and, Materials Transactions, 15. ; Ross (1988), Techniques for Quality Loss Function Orthogonal Experiments Parameter and Tolerance International, Engineering Design Edition, 28. ; Sigworth (1984), The grain refining of aluminum and phase relationships in the Ti system, Metallurgical Transactions, 18, 277. ; Liu (2004), Characteristics of α - dendritic and eutectic structures in treated Si casting alloys of, Journal Materials Science, 25, 39. ; Easton (1999), Grain refinement of aluminum alloys : Part II Confirmation of and a mechanism for the solute paradigm Metallurgical, Materials Transactions, 16. ; Tupaj (2016), Usable Properties of Mg Alloy after Sodium or Strontium Modification of Foundry, Archives Engineering, 24, 129.