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 ; eISSN 2299-2944

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.