Dökümhane sitesinde sunulan eğitim içerikleri hazırlanırken ister istemez birçok kaynağa başvuruluyor. İlgili kaynaklar her makalenin alt kısmında ve El Kitabı serilerinin sonunda mutlaka ayrıntılı bir şekilde sunuluyor.

Tüm bu kaynakları toplu bir şekilde görmek isterseniz, aşağıdaki listeye göz atabilirsiniz. Dökümhane sitesinin içeriği genişledikçe, bu liste de düzenli olarak güncellenerek zenginleşecek.

İçerik hazırlığında kullanılan kaynaklar

  1. 4-6% silicon ductile irons for high temperature service.  H. Roedter. Suggestions for ductile iron production. Sorelmetal (2006).
  2. 50th Census of World Casting Production: Global casting production stagnant. Modern Casting (2016).
  3. ACS (American Chemical Society) National Historic Chemical Landmarks. Hall Process: Production and Commercialization of Aluminum [Link].
  4. AFS Mold and Core Test Handbook. American Foundrymen’s Society (1983) 2nd Edition.
  5. Alçak basınç döküm prosesinde kullanılan kalıp kaplama malzemelerinin metal akışkanlığına etkisi. Ö.Y. Topçuoğlu, Ö.B. Çe, U. Aybarç, M. Keskiç. 7. Uluslararası Ankiros Döküm Kongresi, İstanbul (2014).
  6. Aluminum alloy castings: Properties, processes and applications. J.G. Kaufman, E.L. Rooy. ASM International (2004).
  7. Aluminum and aluminum alloys. J.R. Davis. ASM International (2001).
  8. Aluminium Cast Alloys: Enabling Tools for Improved Performance.D. Apelian. North American Die Casting Association, Wheeling, IL (2009) 1–68.
  9. Aluminum casting technology. D. Zalenas (Ed.) American Foundrymen Society (1993).
  10. Aluminum-silicon casting alloys: An atlas of micrographs. M. Warmuzek. ASM International, Materials Park, OH (2004).
  11. A method to study the history of a double-oxide film defect in liquid aluminum alloys. R. Raiszadeh, W.D. Griffiths. Metallurgican and Materials Transactions B, Vol. 37 (2006) 865.
  12. An investigation of machine learning methods applied to structure prediction in condensed matter. W.J. Brouver, J.D. Kubicki, J.O. Sofo, C.L. Giles. arXiv:1405.3564 [cond-mat.mtrl.sci] (2014).
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  15. A new method for the refinement of the primary Si of hypereutectic casting alloys in direct chill and ingot casting. Light Metals (1993) 815.
  16. A new theory for aluminium-induced gas defects in iron castings and potential solutions. S. Katz. AFS Transactions. Vol. 114. (2006) 775.
  17. An overview on high manganese steel casting. C.S. Mahlami, X. Pan. 71th World Foundry Congress (2014) Bilbao, Spain.
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  26. Avoiding Shrinkage Defects and Maximizing Yield in Ductile Iron. D. White. AFS Proceedings, 2012.
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  33. Cast iron microstructure anomalies and their causes. G.M. Goodrich. AFS Transactions (1997) 669.
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  43. Classification of carbon and low alloy steels. Total Materialia (2001).
  44. Colour metallography of cast iron. Z. Jiyang. China Foundry, Vol. 7 (2010) 470.
  45. Compacted graphite cast irons and their production by a single alloy addition. E.R. Evans, J.V. Dawson, M.J. Lalich. AFS International Cast Metals Research Journal (1976) 13.
  46. Compacted (vermicular) graphite cast irons – Classification. ISO 16112 International Standard. ISO (2017).
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  48. Compacted graphite cast iron – A new material for highly stressed cylinder blocks and cylinder heads. S. Watson, F. Indra. SinterCast (2012).
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  50. Computer aided cooling curve analysis: Principles and applications in metal casting. K.G. Upadhya, D.M. Stefanescu, K. Lieu, D.P. Yeager. AFS Transactions. Vol. 97 (1989) 61.
  51. Computer-aided cooling curve analysis revisited. J.O. Barlow, D.M. Stefanescu. AFS Transactions, Vol. 105 (1997) 349.
  52. Control of grain refinement of Al-Si alloys by thermal analysis. D.G. Ibarra. Doktora Tezi, McGill Üniversitesi (1999) Kanada.
  53. Cracks in high-manganese cast steel. A. Chojeki, I. Telejko. Archives of Foundry Engineering. Vol 9 (2009) 17.
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  55. Damage analysis of a ferritik SiMo ductile cast iron submitted to tension and compression loadings in temperature. I. Hervas, A. Thuault, E. Hug. Metals, 5 (2015) 2531.
  56. Decomposition of resin binders and the relationship between the gases formed and casting surface quality. W.D. Scott, C.E. Bates. AFS Transactions. Vol. 83 (1975) 519.
  57. Decomposition of resin binders and the relationship between the gases formed and casting surface quality, Part 2 – Cast Iron. W.D. Scott, C.E. Bates. AFS Transactions. Vol. 84 (1977) 793.
  58. Decomposition of resin binders and the relationship between the gases formed and casting surface quality, Part 3. W.D. Scott, C.E. Bates. AFS Transactions. Vol. 85 (1977) 209.
  59. Defect formation in cast iron. L. Elmquist. Ders notları. Jönköping University, İsveç (2012).
  60. Designing with austempered ductile iron (ADI). J.R. Keough, K.L. Hayrynen, G.L. Pioszak. AFS Proceedings (2010) Paper: 10-129.
  61. Development of a ferritic ductile cast iron for increased life in exhaust applications. M. Ekström. KTH Royal Institute of Technology (2013).
  62. Development of a super ductile diecast Al–Mg–Si alloy. S. Ji, D. Watson, Z. Fan, M. White: Mater. Sci. Eng. A. Vol. 556 (2012) 824.
  63. Development of new feeding distance rules using casting simulation: Part II. The New Rules.S. Ou, K.D. Carlson, R.A. Hardin, C. Beckermann. Metallurgical and Materials Transactions 33B (2002) 741.
  64. Development of the as-cast microstructure in magnesiumaluminium alloys. A. Dahle, Y. Lee, M. Nave, P. Schaffer, D. StJohn. Journal of Light Metals. Vol 1 (2001) 61.
  65. Die soldering: Mechanism of the interface reaction between molten aluminum alloy and tool steel. S. Shankar, D. Apelian. Metallurgical and Materials Transactions B 33 (2002) 465.
  66. Dilatometric characterization of foundry sands. M. Bruska, J. Beno, M. Cagala, V. Jasinkova. Archieves of Foundry Engineering. Vol. 12 (2012) 9.
  67. Döküm parça kalitesini arttıran yüksek performanslı besleyici gömleklerin gelişimi. S.A. Fischer, L.R. Horvath, R.E. Showman, U. Skerdi. ASK Chemicals: Orjinal döküman AFS Transactions (2012).
  68. Döküm Sektörü: Rehber Döküman. Çevre Yönetimi Genel Müdürlüğü (2012).
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  74. Dubleks paslanmaz çeliklerde oluşan yüksek sıcaklık fazlarına genel bir bakış. A. Kısaöz, A. Karaaslan. Metalurj, 162 (2012) 57.
  75. Dublex stainless steels, a review after DSS’07 in Grado. J. Charles. Rev. Met. Paris, Vol. 105 (2008) 155.
  76. Effect of alloying elements on high temperature mechanical properties for piston alloy. C.Y. Jeong. Materials Transactions. Vol. 53 (2012) 234.
  77. Effects of alloying elements on the microstructures and mechanical properties of heavy section ductile cast iron. G.S.Cho, K.H.Choe, K.W.Lee, A.Ikenaga. Journal of Materials Science and Technology, Vol. 23 (2007) 97.
  78. Effect of Al-5Ti-C master alloy on the microstructure and mechanical properties of hypereutectic Al-20%Si alloy. W. Ding, T. Xia, W. Zhao, Y. Xu. Materials, 7 (2004) 1188.
  79. Effect of the casting process variables on microporosity and mechanical properties in an investment cast aluminium alloy. Y.M. Li, R.D. Li. Science and Technology of Advanced Materials. 2:1 (2001) 277.
  80. Effect of chromium and titanium on structure and properties of white cast iron. M.O. Matveeva. Metallurgical and Mining Industry, Vol. 2 (2010) 17.
  81. Effect of chromium on the solidification process and microstructure of vermicular graphite cast iron. G. Gumienny, M. Dondzbach, B. Kacprzyk. Archieves of Foundry Engineering. Vol. 15 (2015) 29.
  82. Effect of cooling rate on solidification parameters and microstructure of Al-7Si-0.3Mg-0.15Fe alloy. R. Chen, Y.F. Shi, Q.Y.Xu, B.C. Liu. Transactions of Nonferrous Metals Society of China. Vol. 24 (2014) 1645.
  83. Effect of cooling rates during solidification of Al-5.5%Mg-2.3%Si-0.6%Mn  and Al-13%Mg2Si pseudo-binary alloys on their secondary-particle morphology and tear toughness. D. Shimosaka, S. Kumai, F. Casarotto, S. Watanabe. Materials Transactions. Vol. 52 (2011) 920.
  84. Effects of degassing and fluxing on the quality of Al-7%Si and A356.2 alloys. T.S. Shih, K.Y Wen. Material Transactions, Vol. 46 (2005) 263.
  85. Effect of a degassing treatment on the quality of Al-7Si and and A356 melts – Degassing diffusers. T.S. Shih, K.Y. Weng. Materials Transactions, Vol. 45 (2004) 1852.
  86. Effect of metallurgical variables on the machinability of compacted graphite iron. S. Dawson, I. Hollinger, M. Robbins, J. Daeth, U. Reuter, H. Schulz. Society of Automotive Engineers 2001-01-0409 (2001).
  87. Effect of rare earth metals on the micrsotructure of Al-Si based alloys.S.A. Alkahtani, E.M. Elgallad, M.M. Tash, A.M. Samuel, F.H. Samuel. Materials 9, 45 (2016) 1.
  88. Effects of degassing and fluxing on the quality of Al-7%Si and A356.2 alloys. T.S. Shih, K.Y Wen. Material Transactions, Vol. 46 (2005) 263.
  89. Effect of process parameters on the microstructure of semi-solid ZL101 aluminum alloy. S. Cheng, H. Hou, Y. Zhao, Y. Jin. Materials Research 19 (2016).
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  91. Effect of solution treatment temperature on the precipitation kinetic of σ phase in 2205 dublex stainless steel welds. R. Badji, M. Bouabdallah, B. Bacroix, C. Kahloun, K. Bettahar, N. Kherrouba. Materials Science and Engineering A (2008) 447.
  92. Effects of strontium on the microstructure of Al-Si casting alloys. A. Kosa, Z. Gacsi, J. Dul. Materials Science and Engineering, Vol 37/2(2012) 43.
  93. Effect of titanium on the near eutectic gray iron. E. Moumeni, N.S. Tiedje, J.H. Hattel. 12th International Foundrymen Conference (2012) Croatia.
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  96. Elements of Metallurgy and Engineering Alloys. Editor: F.C. Campbell. ASM International, 2008.
  97. Elimination of hot tears in steel castings by means of solidification pattern optimization. P. Kotas, C.C. Tutum, J. Thorborg, J.H. Hattel. Metallurgical and Materials Transactions 43B (2012) 609.
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