Türk Döküm Sektörünün Eğitim Platformu

Dökümhane Sitesi Kaynakları

kaynakcaDökümhane 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.


  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. AFS Mold and Core Test Handbook. American Foundrymen’s Society (1983) 2nd Edition.
  4. Aluminium Cast Alloys: Enabling Tools for Improved Performance.D. Apelian. North American Die Casting Association, Wheeling, IL (2009) 1–68.
  5. 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.
  6. 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).
  7. Analysis of casting defects. American Foundry Society (1974).
  8. Analysis of quality and cost of FeSiMg treatment master alloy vs. cored wire in production of ductile cast iron. E. Guzik. Archieves of Foundry Engineering. Vol 8 (2008) 45.
  9. A new method for the refinement of the primary Si of hypereutectic casting alloys in direct chill and ingot casting. Light Metals (1993) 815.
  10. A new theory for aluminium-induced gas defects in iron castings and potential solutions. S. Katz. AFS Transactions. Vol. 114. (2006) 775.
  11. An overview on high manganese steel casting. C.S. Mahlami, X. Pan. 71th World Foundry Congress (2014) Bilbao, Spain.
  12. A literature survey of the effects of certain minor elements on the properties of nodular iron. E. Wyatt, K. Holmes. Army Materials and Mechanics Research Center, AMMRS (1968) MS68-07.
  13. A model for the graphite formation in ductile cast iron: Part I. Inoculation mechanisms. T. Skaland, F. Grong, T. Grong. Metallurgical Transactions A. Vol. 24A (1993) 2321.
  14. Analysis of quality and cost of FeSiMg treatment master alloy vs. cored wire in production of ductile cast iron. E. Guzik. Archieves of Foundry Engineering. Vol 8 (2008) 45.
  15. Application and further development of advanced image processing algorithms for automated analysis of serial section image data. J.P. Simmons, P. Chuang, M. Comer, J.E. Spowart, M.D. Uchic, M. De Graef. Modelling and Simulation in Materials Science and Engineering, Vol. 17, 025002 (2009).
  16. A review of research on augmented reality in education: Advantages and applications. N.F. Saidin, N.D. Abd. Halim, N. Yahaya. International Education Studies, Vol. 8, 1-8 (2015).
  17. A review of using augmented reality in education from 2011 to 2016. P. Chen, X. Liu, W. Cheng, R. Huang. In: Innovations in Smart Learning, Lecture Notes in Educational Technology. Eds: E. Popescu et al. 13-18 (2017).
  18. A scientific basis for degassing of aluminium. G. K. Sigworth. AFS Transactions, Vol. 95 (1987) 73.
  19. ASM Specialty Handbook: Cast Irons. Editor: J.R. Davis. ASM International, 1996. Avoiding Shrinkage Defects and Maximizing Yield in Ductile Iron. D. White. AFS Proceedings, 2012.
  20. Assessment of grain refinement and modification of Al-Si foundry alloys by thermal analysis. D. Apelian, G.K. Sigworth, K.R. Whaler. AFS Transactions, Vol 92 (1984) 297.
  21. Austempered ductile iron: Fact and fiction. B.V. Kovacs. Modern Casting (Mart 1990) 38.
  22. Basic ductile iron alloying. J.D. Mullins. Sorelmetal, 2006.
  23. Castings. J. Campbell. Butterworth-Heinemann, 2003.
  24. Cast aluminum alloy for high temperature applications. J.A. Lee. Automotive Alloys, TMS (2003).
  25. Cast iron microstructure anomalies and their causes. G.M. Goodrich. AFS Transactions (1997) 669.
  26. Cast iron penetration in sand molds, Part 1: Physics of penetration defects and penetration model. D.M. Stefanescu, S.R. Giese, T.S. Piwonka, A.M. Lane. AFS Transactions. Vol. 104 (1996) 1233.
  27. Cast iron: Physical and engineering properties. H.T. Angus. Buttherwords & Co. 1976.
  28. Cast Iron Technology. R. Elliot. Butterworth-Heinemann, 1988.
  29. Casting aluminum alloys.V.S. Zolotorevsky, N.A. Belov, M.V. Glazoff. Elsevier (2007).
  30. Characterization of silicon carbide particulate reinforced squeeze cast aluminum 7075 matrix composite. H.S. Yılmaz. Master’s Thesis. METU, Turkey (2004).
  31. Characteristics of flake graphite in Ni-Mn-Cu cast iron. Part 1. A. Janus. Archives of Foundry Engineering. Vol. 9 (2009) 185.
  32. Characteristics of flake graphite in Ni-Mn-Cu cast iron. Part 2. A. Janus. Archives of Foundry Engineering. Vol. 10 (2010) 75.
  33. Chunky graphite in ductile iron castings. R Kallbom, K Hamberg, L-E Björkegren. World Foundry Congress Proceedings. Harrogate, UK (2006) 184-1.
  34. Classification and basic metallurgy of cast irons. ASM Speciality Handbook Cast Irons. Ed: J.R. Davis. ASM International (1996).
  35. Classification of carbon and low alloy steels. Total Materialia (2001).
  36. Colour metallography of cast iron. Z. Jiyang. China Foundry, Vol. 7 (2010) 470.
  37. 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.
  38. Compacted graphite irons. In Metals Handbook Casting. D.M. Stefanescu, R. Hummer, E. Nechtelberger. ASM International, Materials Park, Ohio. Vol. 15 (1988) 667.
  39. Compacted graphite cast iron – A new material for highly stressed cylinder blocks and cylinder heads. S. Watson, F. Indra. SinterCast (2012).
  40. Complete castings handbook: Metal casting processes, metallurgy, techniques and design. J. Campbell. Elsevier (2011) 305.
  41. 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.
  42. Computer-aided cooling curve analysis revisited. J.O. Barlow, D.M. Stefanescu. AFS Transactions, Vol. 105 (1997) 349.
  43. Control of grain refinement of Al-Si alloys by thermal analysis. D.G. Ibarra. Doktora Tezi, McGill Üniversitesi (1999) Kanada.
  44. Cracks in high-manganese cast steel. A. Chojeki, I. Telejko. Archives of Foundry Engineering. Vol 9 (2009) 17.
  45. Crystallization behavior of iron containing intermetallics compounds in 319 aluminum alloy. L. Anantha Narayanan, F.H. Samuel, J.E. Gruzleski. Metallurgical and Materials Transactions A 25 (1994) 1761.
  46. 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.
  47. 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.
  48. 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.
  49. 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.
  50. Defect formation in cast iron. L. Elmquist. Ders notları. Jönköping University, İsveç (2012).
  51. Designing with austempered ductile iron (ADI). J.R. Keough, K.L. Hayrynen, G.L. Pioszak. AFS Proceedings (2010) Paper: 10-129.
  52. Development of a ferritic ductile cast iron for increased life in exhaust applications. M. Ekström. KTH Royal Institute of Technology (2013).
  53. 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.
  54. 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.
  55. 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.
  56. 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.
  57. Dilatometric characterization of foundry sands. M. Bruska, J. Beno, M. Cagala, V. Jasinkova. Archieves of Foundry Engineering. Vol. 12 (2012) 9.
  58. 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).
  59. Döküm Sektörü: Rehber Döküman. Çevre Yönetimi Genel Müdürlüğü (2012).
  60. Dökümde besleyiciler ve ekzotermik besleyici malzemeler. K.C. Candeğer. TMMOB Metalurji Mühendisleri Odası, Metalurji. Vol. 126 (2001) 5.
  61. Dross in Ductile Iron: Source, formation and explanation. M. Gagne, M.P. Paquin, P.M. Cabanne. Foundry Trade Journal. November 2009, 276.
  62. Ductile Iron. The essentials of gating and risering system design. Sorelmetal: Rio Tinto Iron & Titanium Inc. (2000) Canada.
  63. Ductile Iron: I. Production. S.I. Karsay. Quebec Iron and Titanium Corporation, 1976.
  64. Ductile iron handbook: Composition of ductile irons. R.B. Gundlach, J.R. Loper, Jr., B. Morgensteren. AFS, Des Plaines (1992) 77.
  65. Dubleks paslanmaz çeliklerde oluşan yüksek sıcaklık fazlarına genel bir bakış. A. Kısaöz, A. Karaaslan. Metalurj, 162 (2012) 57.
  66. Dublex stainless steels, a review after DSS’07 in Grado. J. Charles. Rev. Met. Paris, Vol. 105 (2008) 155.
  67. Effect of alloying elements on high temperature mechanical properties for piston alloy. C.Y. Jeong. Materials Transactions. Vol. 53 (2012) 234.
  68. 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.
  69. 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.
  70. Effect of chromium and titanium on structure and properties of white cast iron. M.O. Matveeva. Metallurgical and Mining Industry, Vol. 2 (2010) 17.
  71. 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.
  72. 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.
  73. 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.
  74. 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.
  75. 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).
  76. 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.
  77. 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.
  78. 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.
  79. 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.
  80. Effect of titanium on the near eutectic gray iron. E. Moumeni, N.S. Tiedje, J.H. Hattel. 12th International Foundrymen Conference (2012) Croatia.
  81. Effect of trace additions (Be, Cr, Mn and Co) on the mechanical properties and fracture toughness of Fe-containing AlSi7Mg0.3 alloy. S. Murali, K.S. Raman, K.S.S. Murthy. Cast Metals. Vol. 6 (1994) 189.
  82. Effect of wall thickness and manganese additions on the formation of intermetallic iron phases in new secondary alloys suitable for vacuum assisted HPDC. A. Niklas, R. Gonzalez-Martinez, S. Orden, A. Bakedano, M. Garat, A. Fernandez-Calvo. AFS Proceedings of the 121st Metalcasting Congress, Milwaukee, Wisconsin (2017) Paper 17-024.
  83. Elements of Metallurgy and Engineering Alloys. Editor: F.C. Campbell. ASM International, 2008.
  84. 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.
  85. Elimination and neutraliztion of boron in ductile irons. R.L. Naro, J.F. Wallace, Y. Zhu. Ductile Iron Society (2004) Project No: 39.
  86. Endüstri 4.0: Mahfi Eğilmez blog yazısı [Link].
  87. Entrainment defects. J. Campbell. Materials Science and Technology, Vol. 22 (2006) 127.
  88. European Standard EN 1563:2011. Founding – Spheroidal Graphite Cast Irons (2011).
  89. Eutectic modification of Al-Si alloys with rare-earth metals. K. Nogita, S.D. McDonald, A.K. Dahle. Materials Transactions Vol. 45, No. 2 (2004) 323.
  90. Evaluation of vacuum assisted compaction processes of foundry molding sand by theorethical sand by theoretical and experimental methods. M. Brzeziński. Archieves of Metallurgy and Materials. Vol. 55 (2010) 763.
  91. Experience in Producing Compacted Graphite Cast Irons by Sulfur Addition After Magnesium Treatment. M. Chisamera, I. Riposan, St. Stan, D. Sparkman, D. Kelley, M. Barstow. AFS Transactions, Vol. 110 (2002) 851.
  92. Factors influencing the formation of pinholes in gray and ductile iron. S.F. Carter, W.J. Evans, J.C. Harkness, J.F. Wallace. AFS Transactions. Vol. 87 (1979) 245.
  93. Feeding and risering guidelines for steel castings. Steel Founders’ Society of America (2001).
  94. Fluidity and temperature profile of ductile iron in thin sections. M. Gorny. Journal of Iron and Steel Research, International. Vol. 19 (2012) 52.
  95. Foundry Technology. P.R. Beeley. Butterworth-Heinemann (2001) 235.
  96. Fracture mechanisms in steel castings. Z. Stradomski, S. Stachura, G. Stradomski. Archives of Foundry Engineering. Vol 13 (2013) 88.
  97. Grain refinement of aluminum alloys. M. Easton, D. John. Met. Mater. Trans. A 1999, 30, 1613.
  98. Guide to casting and molding processes. Casting Source Directory (2006) 9.
  99. Handbook of Metallurgical Process Design. Editors: G.E. Totten, K. Funatani, L. Xie. CRC Press. 2004.
  100. Hardenebility effect of boron in carbon steel. R.A. Grange, H.R. Hribal. U.S. Steel Technical Report 40.061(1) (1972).
  101. History of the metalcasting industry. B.L. Simpson. American Foundrymen’s Society. Des Plaines, IL, (1969).
  102. “I have inclusions! Get me the cheapest and best flux for cleaning my melt!” – Is this the best driven, cost saving approach by a foundry? R. Gallo. AFS Proceedings of the 121st Metalcasting Congress, Milwaukee, Winsconsin (2017) Paper 17-106.
  103. Impact of intermetallic precipitates on the tribological and/or corrosion performance of cast aluminium alloys: a short review. D. Culliton, T. Betts, D. Kennedy. International Journal of Cast Metals Research. Vol. 6 (2013) 65.
  104. Improved determination of carbon in cast iron. K. Toedter, H.G. Jooesten. Proceedings of the 71st World Foundry Congress. Vol. 1. Bilbao, Spain. (2014) 612.
  105. Indian engineers are so unemployable that a tech giant will train high-school graduates itself. Quartz makalesi: https://goo.gl/xeJUJj (2017).
  106. Industrie 4.0 – Smart manufacturing for the future. Germany Trade & Invest (GTAI.de) [Link].
  107. Influence of aluminium on the formation of pinholes in cast irons. T. Elbel, J. Hampl, R. Vladik, R. Koukal. Archieves of Foundry Engineering. Vol. 8 (2008) 27.
  108. Influence of modification on the solution heat treatment response of cast Al-Si-Mg alloys.H.J. Li, S. Shivkumar, X.J. Luos, D. Apelian. Cast Metals 1 (1989) 227.
  109. Intermetallic phase particles in 6082 aluminium alloy.G. Mrowka-Nowotnik, J. Sieniawski, M. Wierzbinska. Archieves of Materials Science and Engineering. Vol. 28 (2007) 69.
  110. International atlas of casting defects. American Foundrymen´s Society, Inc. Des Plaines (1999).
  111. Investigation into the technical limitations of silica sand due to thermal expansion. J. Thiel, M. Ziegler, P. Dziekonski, S. Joyce. AFS Transactions, Paper: 07-145(04) (2007).
  112. ISO 16112: Compacted (vermicular) graphite cast irons – Classification. ISO (2017).
  113. Kinetics of ultrasonic degassing of aluminium alloys. N.A. Baena, D. Eskin. Light Metals (2013) 957.
  114. Lost core technology. H.J. Ross, 13. Internationaler Deutscher Druckgusstag (2013).
  115. Low alloy steel versus ADI – differences and similarities. A. Krzynska, M. Kaczorowski. Archives of Foundry Engineering. Vol. 9 (2009) 151.
  116. Macrosegregation in steel ingots: The applicability of modelling and characterization techniques. E.J. Pickering. ISIJ International, Vol 53 (2013) No: 6, 935.
  117. Magnesium and Magnesium Alloys. Eds: M. Avedesian, H. Baker. ASM Speciality Handbook, ASM International, The Materials Information Society (1999).
  118. Magnesium casting alloys. H. Westegen, T.K. Aune. In: Magnesium Technology. H.E. Friedrich, B.L. Mordike (Eds.) Springer (2006).
  119. Magnesium-Sulfur Relationships in Ductile and Compacted Graphite Cast Irons as Influenced by Late Sulfur Additions. I. Reposan, M. Chisamera, R. Kelley, M. Barstow, R.L. Naro. AFS Transactions 03-093 (2003) 1.
  120. Mechanical and microstructural characterisation of A356 castings realised with full and empty cores. M. Merlin, G.L. Garagnani. Metallurgical Science and Technology. Vol. 27-1 (2009) 21.
  121. Mechanical characterization of aluminium alloys for high temperature applications. Part I: Al-Si-Cu alloys. R. Molina, P. Amalberto, M.Rosso. Metallurgical Science and Technology. Vol. 29-1 (2011) 5.
  122. Mechanical characterization of aluminium alloys for high temperature applications. Part II: Al-Cu, Al-Mg alloys. R. Molina, P. Amalberto, M.Rosso. Metallurgical Science and Technology. Vol. 29-2 (2011) 5.
  123. Mechanical properties dependency of the pearlite content of ductile irons. R.A. Gongaza, P.M. Landa, A. Perez, P. Villanueva. Journal of Achievements in Materials and Manufacturing Engineering. Vol. 33 (2009) 150.
  124. Mechanical properties of SiC/Gr/Al composites fabricated by squeeze casting technology. J. Leng, G. Wu, Q. Zhou, Z. Dou, X. Huang. Scripta Materialia Vol. 59 (2008) 619.
  125. Mechanical properties of solid solution strengthened CGI. R. Ghasemi, L. Elmquist, H. Svensson, M. König, A.E.W. Jarfors. International Journal of Cast Metals Research (2016).
  126. Metal parts and components: Iron and steel castings in Europe. CBI, Market Intelligence Report (2016).
  127. Metallographic procedures for cast iron. G.V. Voort (2015) Web: http://goo.gl/88jEF2
  128. Metallography and microstructures of cast iron. J.M. Radzikowska. ASM Handbook Vol.9 Metallography and Microstructures. ASM International.
  129. Metallurgical Processing of Cast Irons and Oxygen Activity. J. Hampl, T. Valek. Metal 2013, Czech Republic, 2013.
  130. Metalürji teknolojisi: Döküm hataları. 521MMI267. Milli Eğitim Bakanlığı (2011).
  131. Metamorphic zones in green sand molds poured with steel. Y.A. Owusu, A.B. Draper. AFS Transactions. Vol. 86 (1978) 589.
  132. Microsegregation in nodular iron with carbides. S. Pietrowski, G. Gumienny. Archieves of Foundry Engineering. Vol. 12 (2012) 127.
  133. Microstructure and mechanical properties of AC AlSi9CuX alloys. L.A. Dobrzanski, R. Maniara, M. Krupinski, J.H. Sokolowski. Journal of Achievements of Materials and Manufacturing Engineering. Vol. 24 (2007) 51.
  134. Microstructure and mechanical properties of austempered ductile iron. A. Vasko. Annals of Faculty Engineering Hunedoara – International Journal of Engineering (2012) 53.
  135. Microstructure of AM50 die casting magnesium alloy A. Kiełbus, T. Rzychoń, R. Cibis. Journalof Achievements in Materials and Manufacturing Engineering. Vol 18 (2006) 135.
  136. Microstructural effects of phosphorus on presure die cast Al-12Si components. B. Suarez-Pena, J. Asensio-Lozano, J.I. Verdeja-Gonzalez, J.A. Pero-Sans Elorz.  Revista de Metalurgia 43 (2007) 352.
  137. Microstructural evolution and solidification behavior of Al-Mg-Si alloy in high-pressure die casting.S. Ji, Y. Wang, D. Watson, Z. Fan. Metallurgical and Materials Transactions A. Vol. 44A (2013) 3185.
  138. Multiplex modification with rare earth elements and P for hypereutectic Al-Si alloys.Z.Y. Ouyang, X.M. Mao, M. Hong. Journal of Shangai University (English Edition) Vol 11 (2007) 400.
  139. New trends in aluminium degassing – A comparative study. H. Puga, J. Barbosa, E. Seabra, S. Ribeiro, M. Prokic. 4th International Conference on Advances and Trends in Engineering Materials. AES – ATEMA (2009) Hamburg.
  140. Nodular Graphite Formation in Vacuum Melted High Purity Fe-C-Si Alloys. B. Dhindav, J.D. Verhoeven. Metallurgical and Materials Transactions. Vol. 11, 1980, 1049.
  141. Observations on the graphite morphology of compacted graphite cast iron. P.C. Liu, C.R. Loper Jr., T. Kimura, E.N. Pan. AFS Transactions, Vol. 89 (1981) 65.
  142. Observations on the penetration of steel into high density clay bonded molds with controlled atmospheres. C.G. Wagner. AFS Transactions. Vol. 87 (1979) 573.
  143. On the effect of pouring temperature on spheroidal graphite cast iron solidification. A. Escobar, D. Celentano, M. Cruchaga, B. Schulz. 1. Vol. 5 (2015) 628.
  144. On-the-fly machine-learning for high throughput experiments: Search for rare-earth-free permanent magnets. A.G. Kusne, T. Gao, A. Mehta, L. Ke, M.C. Nguyen, K.M. Ho, V. Antropov, C.Z. Wang, M.J. Kramer, C. Long, I. Takeuchi. Scientific Reports 4, Article number: 6367 (2014).
  145. On thermal expansion and density of CGI and SGI cast irons. T. Matsushita, E. Ghassemali, A.G. Saro, L. Elmquist, A.E.W. Jarfors. Metals, Vol. 5 (2015) 1000.
  146. On the use of 2-D moment invariants for the automated classification of particle shapes. J.P. MacSleyne, J.P. Simmons, M. De Graef. Acta Materialia 56, (2008) 427.
  147. Optimization of squeeze cast parameters of LM6 aluminium alloy for surface roughness using Taguchi method. P. Vijian, V .P. Arunachalam. Journal of Materials Processing Technology. Vol. 180 (2006) 161.
  148. Oxide film and porosity defects in magnesium alloy AZ91. L. Wang, H. Rhee, S.D. Felicelli, A.S. Sabau, J.T. Berry. Shape Casting: The 3rd International Symposium. Edited by: J. Campbell, P.N. Crepeau, M. Tiryakioğlu. TMS (2009).
  149. Oxygen Activity in Cast Iron Measured in Induction Furnace at Variable Temperature. F. Mampaey, K. Beghyn. AFS Transactions, 2006.
  150. Östemperlenmiş küresel grafitli dökme demirin abrasif aşınma direnci üzerine östemperleme süresinin etkisi. F. Gül, H. Hasırcı. 6th International Advanced Technologies Symposium (IATS’11) Elazığ (2011) 218.
  151. Partition of slag phases in the treatment and pouring of ductile iron. Elkem Technical Information Sheets: No. 24 (2010).
  152. Perpective: Composition-structure-property mapping in high-throughput experiments: Turning data into knowledge. J.R. Hattrick-Simpers, J.M. Gregoire, G. Kusne. APL Materials 4 (5) 053211 (2016).
  153. Practical guidelines for the fabrication of dublex stainless steels. The International Molybdenum Association (IMAO), 3rd Ed. (2014).
  154. Preconditioning effect of barium in ductile iron production. J. Fourmann. Proceedings of the AFS Cast Iron Conference (2005).
  155. Preparation of Al-Ti-C-Sr master alloys and their refining efficiency on A356 alloy.H.L. Zhao, H.L. Bai, J. Wang, S.K. Guan. Mater. Character. 2009, 60, 377-383.
  156. Principles of thermal analysis for molten metal process control. B.L. Tuttle. AFS/CMI Proceedings of the Conference on Thermal Analysis of Molten Aluminum. Rosemont. Illinois. (1984) 1.
  157. Process optimization for a squeeze cast magnesium alloy metal matrix composite. M.S. Yong, A.J. Clegg.  Journal of Materials Processing Technology 168 (2005) 262.
  158. Production experience with compacted graphite iron automotive components. W. Guesser, T. Schroeder, S. Dawson. AFS Transactions 01-071 (2001).
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