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ARAKRİTİK SICAKLIKLARDAN ÖSTEMPERLENMİŞ FERRİTİK KÜRESEL GRAFİTLİ DÖKME DEMİRDE YENİ FERRİT OLUŞUMU

Yıl 2007, Cilt: 22 Sayı: 4, 0 - , 15.02.2013

Öz

Bu çalışmada, ferritik küresel grafitli dökme demirlerde, arakritik sıcaklıklardan östemperleme sırasında oluşanmikroyapılar incelenmiştir. Bu amaçla ferritik küresel grafitli dökme demir, farklı arakritik sıcaklıklardatavlanmış (kismi östenitlenmiş) ve ardından 365 °C’deki tuz banyosunda farklı sürelerde östemperlenmiştir.Farklı arakritik sıcaklıklardan östemperlemenin ardından, östemperleme süresine bağlı olarak östenittendönüşüm ürünlerinin miktarlarındaki farklılık, mikroyapı değişim grafikleri ile kantitatif olarak gösterilmiştir.Metalografik ölçümler, özellikle belirli bir arakritik tavlama sıcaklığında oluşan orijinal östenitten östemperlemesırasında dönüşen fazların toplam hacim oranının yaklaşık olarak bütün östemperleme süreleri için orijinalöstenitin hacim oranına eşit olduğunu göstermiştir. Arakritik tavlama sıcaklıklarından östemperlenmişnumunelerin her birinde ötektoid öncesi ferrit ve beynitik ferrite ilaveten yeni ferrit (epitaksiyel ferrit) açığaçıkmıştır. Artan arakritik sıcaklığı ile yeni ferrit hacim oranıda artmıştır. Ancak, yeni ferritin arakritiköstenitleme sıcaklığındaki orijinal östenitten dönüşüm yüzdesi, azalan arakritik östenitleme sıcaklığı ile artmıştır.Östemperleme süresindeki artış yeni ferrit, beynitik ferrit ve yüksek karbonlu östenitin martensitle yerdeğişimine neden olmuştur. Numunelerin bazıları karşılaştırma amacıyla 900°C’ den geleneksel olaraköstemperlenmiştir. Geleneksel östemperlenmiş numunelerde yeni ferritin varlığına rastlanmamıştır.

Kaynakça

  • Voigt, R.C., Eldoky, L.M. ve Chiou, H.S.,
  • “Fracture of ductile cast irons with dual matrix
  • structure”, A.F.S. Transactions., Cilt 94, 645-
  • , 1986.
  • Rashidi, A.M. ve Moshrefi-Torbati, M., “Effect of
  • tempering conditions on the mechanical
  • properties of ductile cast iron with dual matrix
  • structure (DMS)”, Materials Letters, Cilt 45,
  • -207, 2000.
  • Cerah, M., Kocatepe, K., ve Erdogan, M.,
  • “Influence of martensite volume fraction and
  • tempering time on tensile properties of partially
  • austenitized in the (α + γ) temperature range and
  • quenched + tempered ferritic ductile iron”,
  • Jounal of Materials Science , Cilt 40, 3453-
  • , 2005.
  • Aranzabal, J., Serramoglia, G. ve Rousiere D.,
  • “Development of a new mixed (ferriticausferritic)
  • ductile iron for automotive suspension
  • parts”, International Journal of Cast Metal
  • Research, Cilt 16, 185-190, 2003.
  • Kobayashi, T. ve Yamamoto, H., “Development
  • of high toughness in austempered type ductile
  • cast iron and evaluation of its properties”,
  • Metallurgical and Materials Transactions A,
  • Cilt 19A, 319-327, 1988.
  • Kobayashi, T. ve Yamada, S., “Effect of holding
  • time in the (α+γ) temperature range on toughness
  • of specially austempered ductile iron”,
  • Metallurgical and Materials Transactions A,
  • Cilt 27A, 1961-1971, 1996.
  • He, Z.R., Lin, G.X. ve Ji, S., “Deformation and
  • fracture behaviour of cast iron with optimized
  • microstructure”, Materials Characterization,
  • Cilt 38, 251-258, 1997.
  • Hafiz, M., “Tensile properties and fracture of
  • ferritic SG-iron having different-shell structure”,
  • Zeitschrift fur Metallkunde, Cilt 11, 1258-1261,
  • -
  • Kocatepe, K., Cerah, M. ve Erdogan, M., “The
  • tensile fracture behaviour of intercritically
  • annealed and quenched + tempered ferritic ductile
  • iron with dual matrix structure”, Materials and
  • Design, Cilt 28, 172-181, 2007.
  • Erdogan, M., Cerah, M., ve Kocatepe, K.,
  • “Influence of Intercritical Austenitizing,
  • Tempering Time and Martensite Volume Fraction
  • on The Tensile Properties of Ferritic Ductile Iron
  • with Dual Matrix Structure”, International
  • Journal of Cast Metal Research, Cilt 19, 248-
  • , 2005.
  • Kocatepe, K. Cerah, M. ve Erdogan, M., “Effect
  • of martensite volume fraction and its morphology
  • on the tensile properties of ferritic ductile iron
  • with dual matrix structures ”, Journal of
  • Materials Processing Techonology, Cilt 178,
  • -51, 2006.
  • Erdogan, M., Kilicli, V. ve Demir, B.,
  • “Transformation characteristics of ductile iron
  • austempered from intercritical austenıitizing
  • temperature ranges”, Journal of Materials
  • Science, In Press, 2007.
  • Kilicli, V. ve Erdogan, M., “Tensile properties of
  • partially austenitised and austempered ductile
  • irons with dual matrix structures”, Materials
  • Science and Technology, Cilt 22, 919-928, 2006.
  • Elliot, R., “Cast Iron Technology”,
  • Butterworths&Co., London, 1988.
  • Vander Voort, G.F., “Metallography:Principle
  • and Practice”, McGraw-Hill, New York, 1984.
  • Gifkins, R.C., “Optical Microscopy of Metals”,
  • Pitman, London, 1970.
  • Cullity, B.D., “Elements of X-Ray Diffraction”,
  • Addison-Wesley, USA, 1974.
  • Roberts, C.S., “Effect of carbon on the lattice
  • parameter of austenite”, Transactions A.I.M.E.,
  • Cilt 197, 203-204, 1953.
  • Kovacs, B.V., “ On the terminology and structure
  • of ADI”, A.F.S. Transactions, Cilt 102, 417-20,
  • -
  • Janowak, J.F. ve Gundlach, R.B., “Development
  • of a ductile iron for commercial austempering”,
  • A.F.S. Transactions, Cilt 91, 377-388, 1983.
  • Moore, D.J., Rouns, T.N. ve Rundman, K.B.,
  • “Effect of manganese on scructure and properties
  • of austempered ductile iron: A process window
  • concept”, A.F.S. Transactions, Cilt 94, 255-264,
  • -
  • Moore, D.J., Rouns, T.N. ve Rundman, K.B.,
  • “The relationship between microstructure and
  • tensile properties in austempered ductile irons”,
  • A.F.S. Transactions, Cilt 95, 765-774, 1987.
  • Elliot, R., “Cast Irons”, Materials Science and
  • Technology, Cilt 7, Editör: Pickering F. B.,
  • Constitution and Properties of Steels, Weinheim,
  • , 1992.
  • Darwish, N. ve Elliot, R., “Austempering of low
  • manganese ductile irons Part 1 Processing
  • window”, Materials Science and Technology,
  • Cilt 9, 572-585, 1993.
  • Darwish, N. ve Elliot, R., “Austempering of low
  • manganese ductile irons Part 3 Variation of
  • mechanical properties with heat treatment
  • conditions”, Materials Science and Technology,
  • Cilt 9, 882-889, 1993.
  • Ali, A.S.H., Uzlov, K.I., Darwish, N. ve Elliot, R.,
  • “Austempering of low manganese ductile irons
  • Part 4 Relationship between mechanical
  • properties and microstructure”, Materials
  • Science and Technology, Cilt 10, 34-40, 1994.
  • Yescas, M.A., Bhadeshia, H.K.D.H. ve MacKay,
  • D.J., “Estimation of the amount of retained
  • austenite in austempered ductile irons using
  • neural networks ”, Materials Science and
  • Engineering A, Cilt A311, 162-173, 2001.
  • Yescas, M.A., Bhadeshia, H.K.D.H., “Model for
  • the maximum fraction of retained austenite in
  • austempered ductile cast iron”, Materials
  • Science and Engineering A, Cilt A333, 60-66,
  • -
  • Bahmani, M., Elliot, R. ve Varahram, N., “The
  • relationship between fatigue strength and
  • microstructure in austempered Cu-Ni-Mn-Mo
  • alloyed ductile iron”, Journal of Materials
  • Science, Cilt 32, 4783-4791, 1997.
  • Yazdani, S. ve Elliot, R., “Influence of
  • molybdenum on austempering behavior of ductile
  • iron, Part 3 Austempering kinetics, mechanical
  • properties and hardenability of ductile iron
  • containing 0.25 % Mo”, Materials Science and
  • Technology, Cilt 15, 885-895, 1999.
  • Yazdani, S. ve Elliot, R., “Influence of
  • molybdenum on austempering behavior of ductile
  • iron, Part 4 Austempering behaviour of ductile
  • iron containing 0.45 % Mo”, Materials Science
  • and Technology, Cilt 15, 896-902, 1999.
  • Grech, M. ve Young, J.M., “Effect of
  • austenitizing temperature on tensile properties of
  • Cu-Ni austempered ductile iron”, Materials
  • Science and Technology, Cilt 6, 415-421 (1990).
  • Bayati, H., Elliot, R. and Lorimer, G.W.,
  • “Influence of austenitizing temperature on
  • austempering kinetics of high manganese alloyed
  • ductile cast iron.”, Materials Science and
  • Technology, Cilt 11, 776-786, 1995.
  • Bayati, H., Elliot, R. ve Lorimer G.W., “Stepped
  • heat treatment for austempering of high
  • manganese alloyed ductile iron ”, Materials
  • Science and Technology, Cilt 11, 1007-1013,
  • -
  • Bayati, H. ve Elliot, R., “Influence of
  • austenitizing temperature on mechanicalproperties
  • of high manganese alloyed ductile
  • iron ”, Materials Science and Technology, Cilt
  • , 908-913, 1995.
  • Bayati, H. ve Elliot, R., “Austempering of low
  • manganese ductile irons Part 3 Variation of
  • mechanical properties with heat treatment
  • conditions”, Materials Science and Technology,
  • Cilt 11, 284-293, 1995.
  • Nazarboland, A. ve Elliot, R., “Influence of heat
  • treatment parameters on stepped asutempering of
  • 37 % Mn-Mo-Cu ductile iron”, Materials
  • Science and Technology, Cilt 13, 223-232, 1997.
  • Bayati, H. ve Elliot, R., “Stepped austempering
  • heat treatment of a 0-67%Mn-Mo-Cu ductile
  • iron ”, Materials Science and Technology, Cilt
  • , 117-124, 1997.
  • Ali, A.S.H., ve Elliot, R., “Influence of
  • austenitizing temperature on austempering of an
  • Mn-Mo-Cu alloyed ductile iron, Part 2
  • Mechanical properties”, Materials Science and
  • Technology, Cilt 13, 24-30, 1997.
  • Yazdani, S. ve Elliot, R., “Influence of
  • molybdenum on austempering behaviour of
  • ductile iron Part 1- Austempering kinetics and
  • mechanical properties of ductile iron containing
  • 13 % Mo”, Materials Science and
  • Technology, Cilt 15, 531-540, 1999.
  • Yazdani, S. ve Elliot, R., “Influence of
  • molybdenum on austempering behaviour of
  • ductile iron Part 2- Influence of austenitizing
  • temperature on austempering kinetics, mechanical
  • properties and hardenability of ductile iron 0.13
  • % Mo”, Materials Science and Technology, Cilt
  • , 541-546, 1999.
  • Geib, M.D., Matlock, D.K. Ve Krauss, G., “Effect
  • of Intercritical Annealing Temperature on the
  • Structure of Niobium Microalloyed Dual-Phase
  • Steel”, Metallurgical Transactions A, Cilt 11A,
  • -1689, 1980.
  • Erdogan, M., “The effect of new ferrite content
  • on the tensile fracture behaviour of dual phase
  • steels”, Journal of Materials Science, Cilt 37,
  • -3630, 2002.
  • Erdogan, M. ve Priestner, R., “Effect of epitaxial
  • ferrite on yielding and plastic flow in dual phase
  • steel in tension and compression”, Materials
  • Science and Technology, Cilt 15, 1273-1284,
  • -
  • Erdogan, M. ve Priestner, R., “Effect of
  • martensite content, its dispersion, and epitaxial
  • ferrite content on Bauschinger behaviour of dual
  • phase steel”, Materials Science and
  • Technology, Cilt 18, 369-376, 2002.
  • Erdogan, M., “Effect of austenite dispersion on
  • phase transformation in dual phase steel”, Scripta
  • Materialia, Cilt 48, 501-506, 2003.
  • Rundman, K.B. ve Klug, R.C., “An X-ray and
  • Metallographic Study of an Austempered Ductile
  • Cast Iron”, A.F.S. Transactions, Cilt 90, 499-
  • , 1982.
  • Moore, D.J., Rouns, T.N. ve Rundman, K.B., “On
  • the structure and properties of austempered
  • ductile iron”, A.F.S. Transactions, Cilt 103, 705-
  • , 1985.
  • Hayrynen, K.L., Moore, D.J. ve Rundman, K.B.,
  • “Tensile properties and microstructure of a clean
  • austempered ductile iron”, A.F.S. Transactions,
  • Cilt 127, 471-486, 1990.
  • Sarwar, M. ve Priestner, R., “Influence of ferritemartensite
  • microstructural morphology on tensile
  • properties of dual-phase steel”, Journal of
  • Materials Science, Cilt 31, 2091-2095, 1996.
Yıl 2007, Cilt: 22 Sayı: 4, 0 - , 15.02.2013

Öz

Kaynakça

  • Voigt, R.C., Eldoky, L.M. ve Chiou, H.S.,
  • “Fracture of ductile cast irons with dual matrix
  • structure”, A.F.S. Transactions., Cilt 94, 645-
  • , 1986.
  • Rashidi, A.M. ve Moshrefi-Torbati, M., “Effect of
  • tempering conditions on the mechanical
  • properties of ductile cast iron with dual matrix
  • structure (DMS)”, Materials Letters, Cilt 45,
  • -207, 2000.
  • Cerah, M., Kocatepe, K., ve Erdogan, M.,
  • “Influence of martensite volume fraction and
  • tempering time on tensile properties of partially
  • austenitized in the (α + γ) temperature range and
  • quenched + tempered ferritic ductile iron”,
  • Jounal of Materials Science , Cilt 40, 3453-
  • , 2005.
  • Aranzabal, J., Serramoglia, G. ve Rousiere D.,
  • “Development of a new mixed (ferriticausferritic)
  • ductile iron for automotive suspension
  • parts”, International Journal of Cast Metal
  • Research, Cilt 16, 185-190, 2003.
  • Kobayashi, T. ve Yamamoto, H., “Development
  • of high toughness in austempered type ductile
  • cast iron and evaluation of its properties”,
  • Metallurgical and Materials Transactions A,
  • Cilt 19A, 319-327, 1988.
  • Kobayashi, T. ve Yamada, S., “Effect of holding
  • time in the (α+γ) temperature range on toughness
  • of specially austempered ductile iron”,
  • Metallurgical and Materials Transactions A,
  • Cilt 27A, 1961-1971, 1996.
  • He, Z.R., Lin, G.X. ve Ji, S., “Deformation and
  • fracture behaviour of cast iron with optimized
  • microstructure”, Materials Characterization,
  • Cilt 38, 251-258, 1997.
  • Hafiz, M., “Tensile properties and fracture of
  • ferritic SG-iron having different-shell structure”,
  • Zeitschrift fur Metallkunde, Cilt 11, 1258-1261,
  • -
  • Kocatepe, K., Cerah, M. ve Erdogan, M., “The
  • tensile fracture behaviour of intercritically
  • annealed and quenched + tempered ferritic ductile
  • iron with dual matrix structure”, Materials and
  • Design, Cilt 28, 172-181, 2007.
  • Erdogan, M., Cerah, M., ve Kocatepe, K.,
  • “Influence of Intercritical Austenitizing,
  • Tempering Time and Martensite Volume Fraction
  • on The Tensile Properties of Ferritic Ductile Iron
  • with Dual Matrix Structure”, International
  • Journal of Cast Metal Research, Cilt 19, 248-
  • , 2005.
  • Kocatepe, K. Cerah, M. ve Erdogan, M., “Effect
  • of martensite volume fraction and its morphology
  • on the tensile properties of ferritic ductile iron
  • with dual matrix structures ”, Journal of
  • Materials Processing Techonology, Cilt 178,
  • -51, 2006.
  • Erdogan, M., Kilicli, V. ve Demir, B.,
  • “Transformation characteristics of ductile iron
  • austempered from intercritical austenıitizing
  • temperature ranges”, Journal of Materials
  • Science, In Press, 2007.
  • Kilicli, V. ve Erdogan, M., “Tensile properties of
  • partially austenitised and austempered ductile
  • irons with dual matrix structures”, Materials
  • Science and Technology, Cilt 22, 919-928, 2006.
  • Elliot, R., “Cast Iron Technology”,
  • Butterworths&Co., London, 1988.
  • Vander Voort, G.F., “Metallography:Principle
  • and Practice”, McGraw-Hill, New York, 1984.
  • Gifkins, R.C., “Optical Microscopy of Metals”,
  • Pitman, London, 1970.
  • Cullity, B.D., “Elements of X-Ray Diffraction”,
  • Addison-Wesley, USA, 1974.
  • Roberts, C.S., “Effect of carbon on the lattice
  • parameter of austenite”, Transactions A.I.M.E.,
  • Cilt 197, 203-204, 1953.
  • Kovacs, B.V., “ On the terminology and structure
  • of ADI”, A.F.S. Transactions, Cilt 102, 417-20,
  • -
  • Janowak, J.F. ve Gundlach, R.B., “Development
  • of a ductile iron for commercial austempering”,
  • A.F.S. Transactions, Cilt 91, 377-388, 1983.
  • Moore, D.J., Rouns, T.N. ve Rundman, K.B.,
  • “Effect of manganese on scructure and properties
  • of austempered ductile iron: A process window
  • concept”, A.F.S. Transactions, Cilt 94, 255-264,
  • -
  • Moore, D.J., Rouns, T.N. ve Rundman, K.B.,
  • “The relationship between microstructure and
  • tensile properties in austempered ductile irons”,
  • A.F.S. Transactions, Cilt 95, 765-774, 1987.
  • Elliot, R., “Cast Irons”, Materials Science and
  • Technology, Cilt 7, Editör: Pickering F. B.,
  • Constitution and Properties of Steels, Weinheim,
  • , 1992.
  • Darwish, N. ve Elliot, R., “Austempering of low
  • manganese ductile irons Part 1 Processing
  • window”, Materials Science and Technology,
  • Cilt 9, 572-585, 1993.
  • Darwish, N. ve Elliot, R., “Austempering of low
  • manganese ductile irons Part 3 Variation of
  • mechanical properties with heat treatment
  • conditions”, Materials Science and Technology,
  • Cilt 9, 882-889, 1993.
  • Ali, A.S.H., Uzlov, K.I., Darwish, N. ve Elliot, R.,
  • “Austempering of low manganese ductile irons
  • Part 4 Relationship between mechanical
  • properties and microstructure”, Materials
  • Science and Technology, Cilt 10, 34-40, 1994.
  • Yescas, M.A., Bhadeshia, H.K.D.H. ve MacKay,
  • D.J., “Estimation of the amount of retained
  • austenite in austempered ductile irons using
  • neural networks ”, Materials Science and
  • Engineering A, Cilt A311, 162-173, 2001.
  • Yescas, M.A., Bhadeshia, H.K.D.H., “Model for
  • the maximum fraction of retained austenite in
  • austempered ductile cast iron”, Materials
  • Science and Engineering A, Cilt A333, 60-66,
  • -
  • Bahmani, M., Elliot, R. ve Varahram, N., “The
  • relationship between fatigue strength and
  • microstructure in austempered Cu-Ni-Mn-Mo
  • alloyed ductile iron”, Journal of Materials
  • Science, Cilt 32, 4783-4791, 1997.
  • Yazdani, S. ve Elliot, R., “Influence of
  • molybdenum on austempering behavior of ductile
  • iron, Part 3 Austempering kinetics, mechanical
  • properties and hardenability of ductile iron
  • containing 0.25 % Mo”, Materials Science and
  • Technology, Cilt 15, 885-895, 1999.
  • Yazdani, S. ve Elliot, R., “Influence of
  • molybdenum on austempering behavior of ductile
  • iron, Part 4 Austempering behaviour of ductile
  • iron containing 0.45 % Mo”, Materials Science
  • and Technology, Cilt 15, 896-902, 1999.
  • Grech, M. ve Young, J.M., “Effect of
  • austenitizing temperature on tensile properties of
  • Cu-Ni austempered ductile iron”, Materials
  • Science and Technology, Cilt 6, 415-421 (1990).
  • Bayati, H., Elliot, R. and Lorimer, G.W.,
  • “Influence of austenitizing temperature on
  • austempering kinetics of high manganese alloyed
  • ductile cast iron.”, Materials Science and
  • Technology, Cilt 11, 776-786, 1995.
  • Bayati, H., Elliot, R. ve Lorimer G.W., “Stepped
  • heat treatment for austempering of high
  • manganese alloyed ductile iron ”, Materials
  • Science and Technology, Cilt 11, 1007-1013,
  • -
  • Bayati, H. ve Elliot, R., “Influence of
  • austenitizing temperature on mechanicalproperties
  • of high manganese alloyed ductile
  • iron ”, Materials Science and Technology, Cilt
  • , 908-913, 1995.
  • Bayati, H. ve Elliot, R., “Austempering of low
  • manganese ductile irons Part 3 Variation of
  • mechanical properties with heat treatment
  • conditions”, Materials Science and Technology,
  • Cilt 11, 284-293, 1995.
  • Nazarboland, A. ve Elliot, R., “Influence of heat
  • treatment parameters on stepped asutempering of
  • 37 % Mn-Mo-Cu ductile iron”, Materials
  • Science and Technology, Cilt 13, 223-232, 1997.
  • Bayati, H. ve Elliot, R., “Stepped austempering
  • heat treatment of a 0-67%Mn-Mo-Cu ductile
  • iron ”, Materials Science and Technology, Cilt
  • , 117-124, 1997.
  • Ali, A.S.H., ve Elliot, R., “Influence of
  • austenitizing temperature on austempering of an
  • Mn-Mo-Cu alloyed ductile iron, Part 2
  • Mechanical properties”, Materials Science and
  • Technology, Cilt 13, 24-30, 1997.
  • Yazdani, S. ve Elliot, R., “Influence of
  • molybdenum on austempering behaviour of
  • ductile iron Part 1- Austempering kinetics and
  • mechanical properties of ductile iron containing
  • 13 % Mo”, Materials Science and
  • Technology, Cilt 15, 531-540, 1999.
  • Yazdani, S. ve Elliot, R., “Influence of
  • molybdenum on austempering behaviour of
  • ductile iron Part 2- Influence of austenitizing
  • temperature on austempering kinetics, mechanical
  • properties and hardenability of ductile iron 0.13
  • % Mo”, Materials Science and Technology, Cilt
  • , 541-546, 1999.
  • Geib, M.D., Matlock, D.K. Ve Krauss, G., “Effect
  • of Intercritical Annealing Temperature on the
  • Structure of Niobium Microalloyed Dual-Phase
  • Steel”, Metallurgical Transactions A, Cilt 11A,
  • -1689, 1980.
  • Erdogan, M., “The effect of new ferrite content
  • on the tensile fracture behaviour of dual phase
  • steels”, Journal of Materials Science, Cilt 37,
  • -3630, 2002.
  • Erdogan, M. ve Priestner, R., “Effect of epitaxial
  • ferrite on yielding and plastic flow in dual phase
  • steel in tension and compression”, Materials
  • Science and Technology, Cilt 15, 1273-1284,
  • -
  • Erdogan, M. ve Priestner, R., “Effect of
  • martensite content, its dispersion, and epitaxial
  • ferrite content on Bauschinger behaviour of dual
  • phase steel”, Materials Science and
  • Technology, Cilt 18, 369-376, 2002.
  • Erdogan, M., “Effect of austenite dispersion on
  • phase transformation in dual phase steel”, Scripta
  • Materialia, Cilt 48, 501-506, 2003.
  • Rundman, K.B. ve Klug, R.C., “An X-ray and
  • Metallographic Study of an Austempered Ductile
  • Cast Iron”, A.F.S. Transactions, Cilt 90, 499-
  • , 1982.
  • Moore, D.J., Rouns, T.N. ve Rundman, K.B., “On
  • the structure and properties of austempered
  • ductile iron”, A.F.S. Transactions, Cilt 103, 705-
  • , 1985.
  • Hayrynen, K.L., Moore, D.J. ve Rundman, K.B.,
  • “Tensile properties and microstructure of a clean
  • austempered ductile iron”, A.F.S. Transactions,
  • Cilt 127, 471-486, 1990.
  • Sarwar, M. ve Priestner, R., “Influence of ferritemartensite
  • microstructural morphology on tensile
  • properties of dual-phase steel”, Journal of
  • Materials Science, Cilt 31, 2091-2095, 1996.
Toplam 224 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Volkan Kılıçlı Bu kişi benim

Mehmet Erdoğan Bu kişi benim

Yayımlanma Tarihi 15 Şubat 2013
Gönderilme Tarihi 15 Şubat 2013
Yayımlandığı Sayı Yıl 2007 Cilt: 22 Sayı: 4

Kaynak Göster

APA Kılıçlı, V., & Erdoğan, M. (2013). ARAKRİTİK SICAKLIKLARDAN ÖSTEMPERLENMİŞ FERRİTİK KÜRESEL GRAFİTLİ DÖKME DEMİRDE YENİ FERRİT OLUŞUMU. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 22(4).
AMA Kılıçlı V, Erdoğan M. ARAKRİTİK SICAKLIKLARDAN ÖSTEMPERLENMİŞ FERRİTİK KÜRESEL GRAFİTLİ DÖKME DEMİRDE YENİ FERRİT OLUŞUMU. GUMMFD. Mart 2013;22(4).
Chicago Kılıçlı, Volkan, ve Mehmet Erdoğan. “ARAKRİTİK SICAKLIKLARDAN ÖSTEMPERLENMİŞ FERRİTİK KÜRESEL GRAFİTLİ DÖKME DEMİRDE YENİ FERRİT OLUŞUMU”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 22, sy. 4 (Mart 2013).
EndNote Kılıçlı V, Erdoğan M (01 Mart 2013) ARAKRİTİK SICAKLIKLARDAN ÖSTEMPERLENMİŞ FERRİTİK KÜRESEL GRAFİTLİ DÖKME DEMİRDE YENİ FERRİT OLUŞUMU. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 22 4
IEEE V. Kılıçlı ve M. Erdoğan, “ARAKRİTİK SICAKLIKLARDAN ÖSTEMPERLENMİŞ FERRİTİK KÜRESEL GRAFİTLİ DÖKME DEMİRDE YENİ FERRİT OLUŞUMU”, GUMMFD, c. 22, sy. 4, 2013.
ISNAD Kılıçlı, Volkan - Erdoğan, Mehmet. “ARAKRİTİK SICAKLIKLARDAN ÖSTEMPERLENMİŞ FERRİTİK KÜRESEL GRAFİTLİ DÖKME DEMİRDE YENİ FERRİT OLUŞUMU”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 22/4 (Mart 2013).
JAMA Kılıçlı V, Erdoğan M. ARAKRİTİK SICAKLIKLARDAN ÖSTEMPERLENMİŞ FERRİTİK KÜRESEL GRAFİTLİ DÖKME DEMİRDE YENİ FERRİT OLUŞUMU. GUMMFD. 2013;22.
MLA Kılıçlı, Volkan ve Mehmet Erdoğan. “ARAKRİTİK SICAKLIKLARDAN ÖSTEMPERLENMİŞ FERRİTİK KÜRESEL GRAFİTLİ DÖKME DEMİRDE YENİ FERRİT OLUŞUMU”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, c. 22, sy. 4, 2013.
Vancouver Kılıçlı V, Erdoğan M. ARAKRİTİK SICAKLIKLARDAN ÖSTEMPERLENMİŞ FERRİTİK KÜRESEL GRAFİTLİ DÖKME DEMİRDE YENİ FERRİT OLUŞUMU. GUMMFD. 2013;22(4).