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Taguchi Approach for Optimization of Parameters that Effect Grain Size of Cast A357 Alloy

Taguchi Approach for Optimization of Parameters that Effect Grain Size of Cast A357 Alloy References[1] Bryant, M., Fisher, P. (1993). Grain Refining and the Aluminium Industry (Past, Present and Future). Aluminium Casthouse Technology.[2] Sigworth, G.K. & Kuhn, T.A. (2007). Grain refinement of aluminum casting alloys. International Journal of Metalcasting. 1, 31-40.http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000268879100004&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=b7bc2757938ac7a7a821505f8243d9f3[3] Stefanescu, D. (2015). Science and engineering of casting solidification. Springer.[4] Spittle, J. (2013). Grain refinement in shape casting of aluminium alloys. International Journal of Cast Metals Research.[5] Cooper, P., Jacop, A., Detomi, A. (2000). Additive developments in the aluminium industry. Publisher.[6] Quested, T. (2004). Understanding mechanisms of grain refinement of aluminium alloys by inoculation. Materials Science and Technology. 20, 1357-69.[7] Cooper, P., Hardman, A., Boot, B., Burhop, E. (2003). Characterisation of New Genaration of Grain Refiners for the Foundry Industry, 132. Publisher.[8] McKay, B., Nunner, G., Geier, G. & Schumacher, P. (2009). Impurities in Al-5Ti-1B grain refiner rod. International Journal of Cast Metals Research. 22, 212-5.http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000268395500052&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=b7bc2757938ac7a7a821505f8243d9f3[9] Boot, D., Cooper, P., StJohn, D., Dahle, A. (2002). A Comparison of Grain Refiner Master Alloys for the Foundry. TMS. Elsevier Ltd.[10] Parton, D., Hedges, M. (1996). A Guide to Melt Treatment in the Aluminium Foundry. London & Scandinavian Metallurgical, Londres.[11] Górny, M., Sikora, G. & Kawalec, M. (2016). Effect of Titanium and Boron on the Stability of Grain Refinement of Al-Cu Alloy. Archives of Foundry Engineering. 16(3), 35-38.[12] Górny, M. & Sikora, G. (2014). Effect of Modification and Cooling Rate on Primary Grain in Al-Cu Alloy. Archives of Foundry Engineering. 14(3), 21-24.[13] Mohanty, P. & Gruzleski, J. (1995). Mechanism of grain refinement in aluminium. Acta Metallurgica et Materialia. 43, 2001-12.[14] Arnberg, L., Bäckerud, L. & Klang, H. (1982). Intermetallic particles in Al-Ti-B-type master alloys for grain refinement of aluminium. Metals Technology. 9, 7-13.10.1179/030716982803286368[15] Easton, M. & Stjohn, D. (1999). Grain refinement of aluminum alloys: Part I. The nucleant and solute paradigms-a review of the literature. Metallurgical and Materials Transactions A. 30, 1613-23.[16] Easton, M. & StJohn, D. (1999). Grain refinement of aluminum alloys: Part II. Confirmation of, and a mechanism for, the solute paradigm. Metallurgical and Materials Transactions A. 30, 1625-33.[17] Schaffer, P.L. & Dahle, A.K. (2005). Settling behaviour of different grain refiners in aluminium. Materials Science and Engineering A. 413, 373-8.[18] Sigworth, G.K. (1984). The grain refining of aluminum and phase relationships in the Al-Ti-B system. Metallurgical Transactions A. 15, 277-82.10.1007/BF02645112[19] Cook, R. (1998). Modification of aluminium-silicon foundry alloys. London: London & Scandinavian metallurgical Co Limited. 12-4.[20] Kim, J-H., Choi, J-W., Choi, J-P., Lee, C-H., Yoon, E-P. (2000). A study on the variation of solidification contraction of A356 aluminum alloy with Sr addition. Journal of Materials Science Letters. 19, 1395-8.[21] Dahle, A., Nogita, K., McDonald, S., Dinnis, C. & Lu, L. (2005). Eutectic modification and microstructure development in Al-Si Alloys. Materials Science and Engineering A. 413, 243-8.[22] Dahle, A., Nogita, K., McDonald, S., Zindel, J. & Hogan, L. (2001). Eutectic nucleation and growth in hypoeutectic Al-Si alloys at different strontium levels. Metallurgical and Materials Transactions A. 32, 949-60.[23] Nogita, K., Yasuda, H., Yoshida, K., Uesugi, K., Takeuchi, A., Suzuki, Y. & Dahle, A.K. (2006). Determination of strontium segregation in modified hypoeutectic Al-Si alloy by micro X-ray fluorescence analysis. Scripta materialia. 55, 787-90.10.1016/j.scriptamat.2006.07.029[24] Tupaj, M., Orłowicz, A.W., Mróz, M., Trytek, A. & Markowska, O. (2016). Usable Properties of AlSi7Mg Alloy after Sodium or Strontium Modification. Archives of Foundry Engineering. 16(3), 129-132.[25] Liu, L., Samuel, A., Samuel, F., Doty, H. & Valtierra, S. (2004). Characteristics of α-dendritic and eutectic structures in Sr-treated Al-Si casting alloys. Journal of Materials Science. 39, 215-24.[26] Nielsen, Ø. & Olsen, S.O. (2013). Experiment for quantification of feedability and permeability in industrial aluminium alloys. International Journal of Cast Metals Research.[27] Dispinar, D., Ellingsen, K., Sabatino, M.D., Arnberg. L. (2008). Measurement of permeability of A356 alumium alloys. 2nd Int Conf Advances in Solidification Process.[28] Ross, P.J. (1988). Taguchi Techniques for Quality Engineering: Loss Function, Orthogonal Experiments, Parameter and Tolerance Design. International Edition.[29] Braszczyńska-Malik, K.N. (2014). Mg-Al-RE Magnesium Alloys for High-Pressure Die-Casting. Archives of Foundry Engineering. 14(2), 49-52.[30] Kapisz, M., Durat, M. & Ficici, F. (2011). Friction and wear studies between cylinder liner and piston ring pair using Taguchi design method. Advances in Engineering Software. 42, 595-603.10.1016/j.advengsoft.2011.04.008http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000292951300007&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=b7bc2757938ac7a7a821505f8243d9f3 http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Archives of Foundry Engineering de Gruyter

Taguchi Approach for Optimization of Parameters that Effect Grain Size of Cast A357 Alloy

Archives of Foundry Engineering , Volume 17 (4): 8 – Dec 20, 2017

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Publisher
de Gruyter
Copyright
© by M. Çolak
ISSN
2299-2944
eISSN
2299-2944
DOI
10.1515/afe-2017-0127
Publisher site
See Article on Publisher Site

Abstract

References[1] Bryant, M., Fisher, P. (1993). Grain Refining and the Aluminium Industry (Past, Present and Future). Aluminium Casthouse Technology.[2] Sigworth, G.K. & Kuhn, T.A. (2007). Grain refinement of aluminum casting alloys. International Journal of Metalcasting. 1, 31-40.http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000268879100004&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=b7bc2757938ac7a7a821505f8243d9f3[3] Stefanescu, D. (2015). Science and engineering of casting solidification. Springer.[4] Spittle, J. (2013). Grain refinement in shape casting of aluminium alloys. International Journal of Cast Metals Research.[5] Cooper, P., Jacop, A., Detomi, A. (2000). Additive developments in the aluminium industry. Publisher.[6] Quested, T. (2004). Understanding mechanisms of grain refinement of aluminium alloys by inoculation. Materials Science and Technology. 20, 1357-69.[7] Cooper, P., Hardman, A., Boot, B., Burhop, E. (2003). Characterisation of New Genaration of Grain Refiners for the Foundry Industry, 132. Publisher.[8] McKay, B., Nunner, G., Geier, G. & Schumacher, P. (2009). Impurities in Al-5Ti-1B grain refiner rod. International Journal of Cast Metals Research. 22, 212-5.http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000268395500052&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=b7bc2757938ac7a7a821505f8243d9f3[9] Boot, D., Cooper, P., StJohn, D., Dahle, A. (2002). A Comparison of Grain Refiner Master Alloys for the Foundry. TMS. Elsevier Ltd.[10] Parton, D., Hedges, M. (1996). A Guide to Melt Treatment in the Aluminium Foundry. London & Scandinavian Metallurgical, Londres.[11] Górny, M., Sikora, G. & Kawalec, M. (2016). Effect of Titanium and Boron on the Stability of Grain Refinement of Al-Cu Alloy. Archives of Foundry Engineering. 16(3), 35-38.[12] Górny, M. & Sikora, G. (2014). Effect of Modification and Cooling Rate on Primary Grain in Al-Cu Alloy. Archives of Foundry Engineering. 14(3), 21-24.[13] Mohanty, P. & Gruzleski, J. (1995). Mechanism of grain refinement in aluminium. Acta Metallurgica et Materialia. 43, 2001-12.[14] Arnberg, L., Bäckerud, L. & Klang, H. (1982). Intermetallic particles in Al-Ti-B-type master alloys for grain refinement of aluminium. Metals Technology. 9, 7-13.10.1179/030716982803286368[15] Easton, M. & Stjohn, D. (1999). Grain refinement of aluminum alloys: Part I. The nucleant and solute paradigms-a review of the literature. Metallurgical and Materials Transactions A. 30, 1613-23.[16] Easton, M. & StJohn, D. (1999). Grain refinement of aluminum alloys: Part II. Confirmation of, and a mechanism for, the solute paradigm. Metallurgical and Materials Transactions A. 30, 1625-33.[17] Schaffer, P.L. & Dahle, A.K. (2005). Settling behaviour of different grain refiners in aluminium. Materials Science and Engineering A. 413, 373-8.[18] Sigworth, G.K. (1984). The grain refining of aluminum and phase relationships in the Al-Ti-B system. Metallurgical Transactions A. 15, 277-82.10.1007/BF02645112[19] Cook, R. (1998). Modification of aluminium-silicon foundry alloys. London: London & Scandinavian metallurgical Co Limited. 12-4.[20] Kim, J-H., Choi, J-W., Choi, J-P., Lee, C-H., Yoon, E-P. (2000). A study on the variation of solidification contraction of A356 aluminum alloy with Sr addition. Journal of Materials Science Letters. 19, 1395-8.[21] Dahle, A., Nogita, K., McDonald, S., Dinnis, C. & Lu, L. (2005). Eutectic modification and microstructure development in Al-Si Alloys. Materials Science and Engineering A. 413, 243-8.[22] Dahle, A., Nogita, K., McDonald, S., Zindel, J. & Hogan, L. (2001). Eutectic nucleation and growth in hypoeutectic Al-Si alloys at different strontium levels. Metallurgical and Materials Transactions A. 32, 949-60.[23] Nogita, K., Yasuda, H., Yoshida, K., Uesugi, K., Takeuchi, A., Suzuki, Y. & Dahle, A.K. (2006). Determination of strontium segregation in modified hypoeutectic Al-Si alloy by micro X-ray fluorescence analysis. Scripta materialia. 55, 787-90.10.1016/j.scriptamat.2006.07.029[24] Tupaj, M., Orłowicz, A.W., Mróz, M., Trytek, A. & Markowska, O. (2016). Usable Properties of AlSi7Mg Alloy after Sodium or Strontium Modification. Archives of Foundry Engineering. 16(3), 129-132.[25] Liu, L., Samuel, A., Samuel, F., Doty, H. & Valtierra, S. (2004). Characteristics of α-dendritic and eutectic structures in Sr-treated Al-Si casting alloys. Journal of Materials Science. 39, 215-24.[26] Nielsen, Ø. & Olsen, S.O. (2013). Experiment for quantification of feedability and permeability in industrial aluminium alloys. International Journal of Cast Metals Research.[27] Dispinar, D., Ellingsen, K., Sabatino, M.D., Arnberg. L. (2008). Measurement of permeability of A356 alumium alloys. 2nd Int Conf Advances in Solidification Process.[28] Ross, P.J. (1988). Taguchi Techniques for Quality Engineering: Loss Function, Orthogonal Experiments, Parameter and Tolerance Design. International Edition.[29] Braszczyńska-Malik, K.N. (2014). Mg-Al-RE Magnesium Alloys for High-Pressure Die-Casting. Archives of Foundry Engineering. 14(2), 49-52.[30] Kapisz, M., Durat, M. & Ficici, F. (2011). Friction and wear studies between cylinder liner and piston ring pair using Taguchi design method. Advances in Engineering Software. 42, 595-603.10.1016/j.advengsoft.2011.04.008http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000292951300007&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=b7bc2757938ac7a7a821505f8243d9f3

Journal

Archives of Foundry Engineeringde Gruyter

Published: Dec 20, 2017

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