___

• Şahin, H.M., Kocatepe, K., Kayıkcı R. ve Akar,
• N., “Determination of Unidirectional Heat
• Transfer Coefficient during Unsteady State
• Solidification at Metal Chill Interface”, Energy
• Conversion and Management, 47, 19–34, 2006.
• Şahin, H.M., Kocatepe, K., Kayıkcı R. ve Akar,
• N., “Ötektik Al-Si Alaşımında Soğutucu Yüzey
• Pürüzlülüğünün Arayüzey Isı Transfer
• Katsayısına Etkisi”, Gazi Üniversitesi
• Mühendislik-Mimarlık Fakültesi Dergisi, Cilt
• , No 3, 473-481, 2006.
• Kim, T.G. ve Lee, Z.H., “Time-varying Heat
• Transfer Coefficients Between Tube-Shaped
• Casting and Metal Mold”, International Journal
• of Heat and Mass Transfer, 40, 3513-3525,
• -
• Lee, Z.H., Kim, T.G. ve Choi, Y.S., “The
• Movement of the Concave Casting Surface
• during Mushy-Type Solidification and Its Effect
• on the Heat-Transfer Coefficient”, Metallurgical
• and Materials Transactions B, 29, 1051-1056,
• -
• Fortin, G, Louchez, P. ve Samuel, F H, “Factors
• Controlling Heat Transfer Coefficients at the
• Metal-Mold Interface during Solidification of
• Aluminum Alloys: An Analytical Study”, AFS
• Transactions, 100, 863-871, 1992.
• Hao, S.W., Zhang, Z.Q., Chen, J.Y., ve Liu, P.C.,
• “Heat Transfer at the Metal-Mold Interface in
• Ductile Iron”, AFS Transactions, 95, 601-608,
• -
• Sharma, D.G.R. ve Krishnan, M., “Simulation of
• Heat Transfer at Casting Metal-Mold Interface“,
• AFS Transactions, 99, 429-438, 1991.
• Taha, M.A., El-Mahallawy, N.A., El-Mestekawi,
• M.T. ve Hassan A.A., “Estimation of Air Gap
• and Heat Transfer Coefficient at Different Faces
• of Al And Al-Si Castings Solidifying in
• Permanent Mould”, Materials Science And
• Technology, 17, 1093-1101, 2001.
• Santos, C.A., Quaresma, J.M.V. ve Garcia, A.,
• “Determination of Transient Interfacial Heat
• Transfer Coefficients in Chill Mold Casting”,
• Journal of Alloys and Compounds, 319, 174-
• , 2001.
• Santos, C.A., Siqueira, C.A., Garcia, A.,
• Quaresma, J.V.M. ve Spim, J.A., “Metal/Mold
• Heat Transfer Coefficients during Horizontal and
• Vertical Unsteady-State Solidification of Al-Cu
• and Sn-Pb Alloys”, 4th International
• Conference on Inverse Problems in
• Engineering, Rio de Janeiro, Brazil, 2002.
• Siqueira, C.A., Cheung, N. ve Garcia, A., “The
• Columnar To Equiaxed Transition During
• Solidification of Sn–Pb Alloys”, Journal of
• Alloys and Compounds, 351, 126–134, 2003.
• Peres, M.D., Siqueira, C.A. ve Garcia, A.,
• “Macrostructural and Microstructural
• Development in Al–Si Alloys Directionally
• Solidified under Unsteady-State Conditions”,
• Journal of Alloys and Compounds, 381,168–
• , 2004.
• Santos, C.A., Siqueira, C.A.,Garcia, A.,
• Quaresma, J.M.V. ve Spim, J.A., “Metal–Mold
• Heat Transfer Coefficients during Horizontal and
• Vertical Unsteady-State Solidification of Al–Cu
• and Sn–Pb Alloys”, Inverse Problems in
• Science and Engineering, 12, 279–296,2004.
• Sá, F., Rocha, O.L., Siqueira, C.A. ve Garcia, A.,
• “The Effect of Solidification Variables on
• Tertiary Dendrite Arm Spacing in Unsteady-State
• Directional Solidification of Sn–Pb and Al–Cu
• Alloys”, Materials Science and Engineering A,
• , 131–138 ,2004.
• Spinelli, J.E., Rosa, D.M., Ferreira, I.L. ve
• Garcia, A., “Influence of Melt Convection on
• Dendritic Spacing of Downward Unsteady-State
• Directionally Solidified Al–Cu Alloys”,
• Materials Science and Engineering A, 383,
• –282, 2004.
• Souza, E. N., Cheung, N. ve Garcia, A., “The
• Correlation Between Thermal Variables and
• Secondary Dendrite Arm Spacing During
• Solidification of Horizontal Cylinders of Sn–Pb
• Alloys” Journal of Alloys and Compounds,
• , 110-117, 2005.
• Muojekwu, C.A., Samarasekera, I.V. ve
• Brimacombe, J.K., “Heat Transfer and
• Microstructure during The Early Stages of Metal
• Solidification”, Metallurgical and Materials
• Transactions B, 26, 361-382, 1995.
• Michel, F., Louchez, P. R. ve Samuel, F. H.,
• “Heat Transfer Coefficient during Solidification
• of Al-Si Alloys: Effects of Mold Temperature,
• Coating Type and Thickness”, AFS
• Transactions, 103, 275-283, 1995.
• Krishnan, M. ve Sharma, D.G.R., “Determination
• of Heat Transfer Coefficient between Casting and
• Chill in Unidirectional Heat Flow”, AFS
• Transactions, 102, 769-774, 1994.
• Krishnan, M. ve Sharma, D.G.R., “The Effect of
• Alloy Properties on the Heat Flow across the
• Casting-Mold Interface”, Scripta Metallurgica
• et Materialia, 28, 447-451, 1993.
• Narayan Prabhu, K. ve Ravishankar, B.N.,
• “Effect of Modification Melt Treatment on
• Casting/Chill Interfacial Heat Transfer and
• Electrical Conductivity of Al-/13% Si Alloy”,
• Materials Science and Engineering A, 360,
• -298, 2003.
• Suly, L.J.D., “The Thermal Interface between
• Casting and Chill Moulds”, AFS Transactions,
• , 735-744, 1976.
• Prabhu, K.N. ve Griffiths, W.D., “Assessment of
• Metal/Mould Interfacial Heat Transfer during
• Solidification of Cast Iron” Third International
• Conference on Solidification and Gravity,
• Miskolc, Hungary, 455-461, 1999.
• Lau, F., Lee, W.B., Xiong, S.M. ve Liu, B.C., “A
• Study of The Interfacial Heat Transfer between
• an Iron Casting and a Metallic Mould”, Journal
• of Materials Processing Technology, 79, 25–29,
• -
• Broucaret, S., Michrafy, A. ve Dour, G., “Heat
• Transfer and Thermo-Mechanical Stresses in a
• Gravity Casting Die Influence of Process
• Parameters”, Journal of Materials Processing
• Thecnology, 110, 211-217, 2001.
• Hallam, C.P. ve Griffiths, W.D.,”A Model of the
• Interfacial Heat-Transfer Coefficient for the
• Aluminum Gravity Die-Casting Process”,
• Metallurgical and Materials Transactions B;
• , 721-733, 2004.
• Gozlan, E. ve Bamberger, M., “Heat Flow and
• Solidification in A Metal Mould” Zeitschrift für
• Metallkunde, 78, 677-682, 1987.
• Srinivasan, M.N., “Heat Transfer Coefficients at
• the Casting-mould Interface during Solidification
• of Flake Graphite Cast Iron in Metallic Moulds”,
• Indian Journal of Technology, 20, 123-129,
• -
• Hallam, C.P., Griffiths, W.D. ve Butler, N.D.,
• “Interfacial Heat Transfer between A Solidifying
• Aluminum Alloy and A Coated Die Steel”,
• Materials Science Forums, 329-330, 467-472,
• -
• Ho, K. ve Pehlke, R D ; “Mechanisms of Heat
• Transfer at A Metal-Mold Interface”; AFS
• Transactions, 92, 587-598, 1984.
• Hou, T.X. ve Pehlke, R.D., “Determination of
• Mold-Metal Interfacial Heat Transfer and
• Simulation of Solidification of An Al-%13 Si
• Casting”, AFS Transactions, 96, 129-136, 1998.
• Ho, K. ve Pehlke, R.D., “Transient Methods for
• Determination of Metal-Mold Interfacial Heat
• Transfer”, AFS Transactions, 91, 689-698,
• -
• Nishida, Y., Droste, W. ve Engler, S., “The Airgap
• Formation Process at the Casting-Mold
• interface and the Heat Transfer Mechanism
• Through the Air-gap”, Met. Transactions B, 17,
• -844, 1986.
• Liu, W., Wang G X., ve Matthys, E.F., “Thermal
• Analysis and Measurements for A Molten Metal
• Drop Impacting on A Substrate, Cooling,
• Solidification and Heat Transfer Coefficient”,
• International Journal of Heat and Mass
• Transfer, 38, 1387-1395 ,1995.
• Trovant, M. ve Argyropoulos, S.A., “The
• Implementation of A Mathematical Model To Characterize Mold Metal Interface Effects in
• Metal Casting”, Canadian Metallurgical
• Quarterly, 37, 185-196, 1998.
• Parker, J.K. ve Piwonka, T.S., “Gap Formation in
• Resin-Bonded Molds”, AFS Transactions, 108,
• -245, 2000.
• Hwang, J.C., Chuang, H.T., Jong, S.H. ve
• Hwang, W.S., “Measurement of Heat Transfer
• Coefficient at Metal-Mold Interface during
• Casting”, AFS Transactions, 102, 877-883,
• -
• Coates, BL., Heat Transfer of the Casting
• Metal/Mold Interface during Solidification,
• PhD Thesis, Graduate Department of Materials
• Science and Engineering, University of Toronto,
• Toronto, Canada, 129-192, 2004.
• Hartley, J.G. ve Patterson, J.A.L., “The Influence
• of Temperature, Moisture Content and Binder
• Content on the Conductivity of Dried Bentonite-
• Bonded Zirkon and Silica Sands”, AFS
• Transactions, 91, 183-190, 1983.
• Kannaiah, P., Narayana, K.L. ve Roshan, H. Md.,
• “Thermal Properties of Molding Sands, Casting-
• Over Probe Embedded Specimen Method”, AFS
• Transactions, 95, 591-600, 1987.
• Hartley, J.G., Babcock, D. ve Berry, J.T., “The
• Thermal Conductivity of Bentonite-Bonded
• Molding Sands”, AFS Transactions, 89, 469-
• , 1981.
• Bandyopadhyay, B.P., Joshi, M.D. ve
• Chakraborty, P.N., “A Transient Method of
• Simultaneous Measurement of Thermal
• Properties of Moulding Sand Using Plane Heat
• Source”, British Foundryman, 77, 318-321,
• -
• Seshadri, M.R. ve Ramachandran, A., “Mold
• Materials Thermal Properties”, AFS
• Transactions, 69, 616-624, 1961.
• Krishnan, M. ve Sharma, D.G.R., “Determination
• of the Interfacial Heat Transfer Coefficient h in
• Unidirectional Heat Flow by Beck’s Non Linear
• Estimation Procedure”, Int. Comm. Heat Mass
• Transfer, 23, 203-214, 1996.
• Özışık, M.N., Finite Difference Methods in
• Heat Transfer, Mechanical and Aerospace
• Engineering Department, North Carolina State
• University, ABD, 1994.
• Incropera, F.P. ve Dewitt, D.P., Fundamentals of
• Heat and Mass Transfer, John Wiley & Sons,
• Purdue University, School of Mechanical
• Engineering, ABD, 1996.
• Kayıkcı, R. ve Griffiths, W.D., “The Influence of
• Surface Roughness on Interfacial Heat Transfer
• during Casting Solidification”, Foundryman, 92,
• -273, 1999.
• Kayıkcı, R., Metal-Mold Contact and Heat
• Transfer during Casting Solidification, PhD
• Thesis, Manchester Materials Science Centre,
• University of Manchester and UMIST,
• Manchester, 77-181, 1999.
• Wang, G.-X. ve Matthys, E.F., “Experimental
• Determination of the Interfacial Heat Transfer
• during Cooling and Solidification of Molten
• Metal Droplets Impacting on A Metallic
• Substrate: Effect of Roughness and Superheat”,
• International Journal of Heat and Mass
• Transfer, 45, 4967–4981, 2002.
• Gafur, M. A., Nasrul Haque, M. ve Narayan
• Prabhu, K., “Effect of Chill Thickness and
• Superheat on Casting/Chill Interfacial Heat
• Transfer during Solidification of Commercially
• Pure Aluminum”, Journal of Materials
• Processing Technology, 133, 257-265, 2003.
• Akar, N, Katılaşma Sırasında Döküm-Kalıp
• Ara Yüzeyinde Isı Transfer Katsayısının
• İncelenmesi, Doktora Tezi, Gazi Üniversitesi,
• Fen Bilimleri Enstitüsü, 2006.