Yıl 2019,
Cilt: 2 Sayı: 2, 64 - 69, 31.12.2019
Ayşenur Acar
,
Abdul Kadir Ekşi
,
Ahmet Ekicibil
Kaynakça
- [1]. Morintale E., Harabor A., Constantinescu C., Rotaru P. 2015, Use of heat flows from DSC curve for calculaion of specific heat of the solid Materials, Physics AUC. Vol. 23, 89-94 [2]Wielgosz, E., Kargul T., Falkus J. 2014, Comparison of Experimental and Numerically Calcuated Thermal Properties of Steels, International Conference on Metallurgy and Materials, Metal 2014, May 21 st-23rd 2014, Brno, Czech Republic[3]Fang H.,, Wong M.B., Bai Y. 2015,Use of kinetic model for thermal properties of steel at high temperatures, Australian Journal of Civil Engineering, 13:1, 40-47,[4]Kelley K.K..1949, X. High‐temperature heat‐content, heat‐capacity, and entropy data for inorganic compounds, Bureau of Mines Bull. 476, 192 (1949). [5] Abdoos H., Khorsand H., Shahani A.R., Fatigue Behavior of Diffusion Bonded Powder Metallurgy Steel with Heterogeneous Microstructure, Materials and Design 30 (2009) 1026–1031[6] James WB, OtBrien RC. High performance Ferrous PM Materials: The Effect of Alloying Method on Dynamic Properties. Progress in powder Metallurgy. Princeton NJ: MPIF; 1986.[7] Alzati L, Bergmark A, Andersson J. Fatigue Performance of PM Steel in Assintered State. Presented at PMAI conference, Mumbai, India, February;2005[8]Lindskog P. The history of Distaloy, Powder Metallurgy, 56:5, (2013) 351-361,[9]Öksüz K.E., Kumruoğlu L.C., Tur O. , Effect of Sicp on the Microstructure and Mechanical Properties of Sintered Distaloy DC Composites, (5th International Biennial Conference on Ultrafine Grained and Nanostructured Materials, UFGNSM15), 11-12 November 2015, Tehran-Iran, Procedia Materials Science 11 ( 2015 ) 49 – 54[10] Panda S.S., Singh V., Upadhyaya A., Agrawal D., Sintering Response of Austenitic (316L) And Ferritic (434L) Stainless Steel Consolidated in Conventional and Microwave Furnaces,Scripta Materialia 54 (2006) 2179–2183 [11] Giménez S., Vagnon A., Bouvard D., Van der Biest O., Influence of the Green Density on the Dewaxing Behaviour of Uniaxially Pressed Powder Compacts, Materials Science and Engineering A 430 , (2006) ,277–284[12] Yılmaz R.,Ekici M.R., Üretim Parametrelerin Düşük Alaşımlı TM Çeliklerin Sertlik Ve Aşınma Özelliklerine Etkisi ISITES2015 Valencia –Spain, 2545-2554[13] Zarebski K., Putyra P., 2015, Iron Powder-based Graded Products Sintered by Conventional Method and by SPS, Advanced Powder Technology 26 (2015) 401–408[14] Al-Qureshi H.A., Galiotto A., Klein A.N., On the mechanics of cold die compaction for powder metallurgy, Journal of Materials Processing Technology 166 (2005) 135–143[15] Acar A.N., Ekşi A.K., Ekicibil A., Effect of pressure on the magnetic and structural properties of X2CrNiMo17-12-2 austenitic stainless steel prepared by powder metallurgy method Journal of Molecular Structure, Volume 1198, 15 December 2019, 126876[16].Acar A.N., Mutlu R.N., Ekşi A.K., Ekicibil A., Yazıcı B., Effect of temperature and pressure on mechanical, surface and electrochemical properties of Al-1.5Cu-5.5Zn-2.5Mg (Alumix-431), Anti-Corrosion Methods and Materials 65/6 (2018) 558–571[17] Butković S., Oruč M., Šarić E., Mehmedović M., Effect of Sınterıng Parameters on the Density, Microstructure And Mechanical Properties of the Niobium-Modified Heat-Resistant Stainless Steel GX40CrNiSi25-20 Produced by MIM Technology, Materiali in tehnologije / Materials and technology 46 (2012) 2, 185–190, [18]Pandya S., Ramakrishna K.S., Annamalai A.R., Upadhyaya A., Effect of Sintering Temperature on the Mechanical and Electrochemical Properties of Austenitic Stainless Steel, Materials Science and Engineering A 556 (2012) 271–277, [19]Butković S., Sinterability And Tensile Properties of Nickel Free Austenitic Stainless Steel X15CrMnMoN 17 11 3,Tehnički vjesnik 20, 2(2013), 269-274 269, Technical Gazette 20, 2(2013), 269-274).[20] Karthikeyan B., Ramanathan S., Ramakrishnan V., A Calorimetry Study of 7075Al/SiCp Composites, Materials and Design 31(2010) S92-S95.[21] Witthan B., Reschab H., Tanzer R. Shützenhöfer W., Pootlacher G., Thermophysical Properties of Chromium-Nickel-Molybdenum Steel in the Solid and Liquid phases , Int J. Thermophy. 2008 29:434-444[22] Karwan-Baczewska J. Processing and Properties of Distaloy SA Sintered Alloys with Boron and Carbon, Archives of Metallurgy and Materials 2015 ,60 (1),41-45 [23] Abdoos H., Khorsand H., Shahani A.R., Fatigue Behavior of Diffusion Bonded Powder Metallurgy Steel with Heterogeneous Microstructure, Materials and Design 30 (2009) 1026–1031
THERMOPHYSICAL BEHAVIOURS OF P/M DISTALOY AE ALLOYS AT TEMPERATURE RANGE OF 0-600 0C
Yıl 2019,
Cilt: 2 Sayı: 2, 64 - 69, 31.12.2019
Ayşenur Acar
,
Abdul Kadir Ekşi
,
Ahmet Ekicibil
Öz
In
this study, the thermophysical properties (specific heat capacity, enthalpy) of
Distaloy AE alloys have investigated.
Distaloy AE alloys were prepared by powder metallurgy method applying
conventional pressing technique and heat treatment under N2
atmosphere. thermophysical properties of
these alloys have been investigated at temperature ranging from 0
to 600 °C via heat flux type Differential Scanning Calorimeter (DCS) with 20 °C/min of heating rate, 50mL/min gas flow and
applied under N2 atmosphere. These
results supported with SEM images, EDS spectrums and XRD patterns of alloys.
Kaynakça
- [1]. Morintale E., Harabor A., Constantinescu C., Rotaru P. 2015, Use of heat flows from DSC curve for calculaion of specific heat of the solid Materials, Physics AUC. Vol. 23, 89-94 [2]Wielgosz, E., Kargul T., Falkus J. 2014, Comparison of Experimental and Numerically Calcuated Thermal Properties of Steels, International Conference on Metallurgy and Materials, Metal 2014, May 21 st-23rd 2014, Brno, Czech Republic[3]Fang H.,, Wong M.B., Bai Y. 2015,Use of kinetic model for thermal properties of steel at high temperatures, Australian Journal of Civil Engineering, 13:1, 40-47,[4]Kelley K.K..1949, X. High‐temperature heat‐content, heat‐capacity, and entropy data for inorganic compounds, Bureau of Mines Bull. 476, 192 (1949). [5] Abdoos H., Khorsand H., Shahani A.R., Fatigue Behavior of Diffusion Bonded Powder Metallurgy Steel with Heterogeneous Microstructure, Materials and Design 30 (2009) 1026–1031[6] James WB, OtBrien RC. High performance Ferrous PM Materials: The Effect of Alloying Method on Dynamic Properties. Progress in powder Metallurgy. Princeton NJ: MPIF; 1986.[7] Alzati L, Bergmark A, Andersson J. Fatigue Performance of PM Steel in Assintered State. Presented at PMAI conference, Mumbai, India, February;2005[8]Lindskog P. The history of Distaloy, Powder Metallurgy, 56:5, (2013) 351-361,[9]Öksüz K.E., Kumruoğlu L.C., Tur O. , Effect of Sicp on the Microstructure and Mechanical Properties of Sintered Distaloy DC Composites, (5th International Biennial Conference on Ultrafine Grained and Nanostructured Materials, UFGNSM15), 11-12 November 2015, Tehran-Iran, Procedia Materials Science 11 ( 2015 ) 49 – 54[10] Panda S.S., Singh V., Upadhyaya A., Agrawal D., Sintering Response of Austenitic (316L) And Ferritic (434L) Stainless Steel Consolidated in Conventional and Microwave Furnaces,Scripta Materialia 54 (2006) 2179–2183 [11] Giménez S., Vagnon A., Bouvard D., Van der Biest O., Influence of the Green Density on the Dewaxing Behaviour of Uniaxially Pressed Powder Compacts, Materials Science and Engineering A 430 , (2006) ,277–284[12] Yılmaz R.,Ekici M.R., Üretim Parametrelerin Düşük Alaşımlı TM Çeliklerin Sertlik Ve Aşınma Özelliklerine Etkisi ISITES2015 Valencia –Spain, 2545-2554[13] Zarebski K., Putyra P., 2015, Iron Powder-based Graded Products Sintered by Conventional Method and by SPS, Advanced Powder Technology 26 (2015) 401–408[14] Al-Qureshi H.A., Galiotto A., Klein A.N., On the mechanics of cold die compaction for powder metallurgy, Journal of Materials Processing Technology 166 (2005) 135–143[15] Acar A.N., Ekşi A.K., Ekicibil A., Effect of pressure on the magnetic and structural properties of X2CrNiMo17-12-2 austenitic stainless steel prepared by powder metallurgy method Journal of Molecular Structure, Volume 1198, 15 December 2019, 126876[16].Acar A.N., Mutlu R.N., Ekşi A.K., Ekicibil A., Yazıcı B., Effect of temperature and pressure on mechanical, surface and electrochemical properties of Al-1.5Cu-5.5Zn-2.5Mg (Alumix-431), Anti-Corrosion Methods and Materials 65/6 (2018) 558–571[17] Butković S., Oruč M., Šarić E., Mehmedović M., Effect of Sınterıng Parameters on the Density, Microstructure And Mechanical Properties of the Niobium-Modified Heat-Resistant Stainless Steel GX40CrNiSi25-20 Produced by MIM Technology, Materiali in tehnologije / Materials and technology 46 (2012) 2, 185–190, [18]Pandya S., Ramakrishna K.S., Annamalai A.R., Upadhyaya A., Effect of Sintering Temperature on the Mechanical and Electrochemical Properties of Austenitic Stainless Steel, Materials Science and Engineering A 556 (2012) 271–277, [19]Butković S., Sinterability And Tensile Properties of Nickel Free Austenitic Stainless Steel X15CrMnMoN 17 11 3,Tehnički vjesnik 20, 2(2013), 269-274 269, Technical Gazette 20, 2(2013), 269-274).[20] Karthikeyan B., Ramanathan S., Ramakrishnan V., A Calorimetry Study of 7075Al/SiCp Composites, Materials and Design 31(2010) S92-S95.[21] Witthan B., Reschab H., Tanzer R. Shützenhöfer W., Pootlacher G., Thermophysical Properties of Chromium-Nickel-Molybdenum Steel in the Solid and Liquid phases , Int J. Thermophy. 2008 29:434-444[22] Karwan-Baczewska J. Processing and Properties of Distaloy SA Sintered Alloys with Boron and Carbon, Archives of Metallurgy and Materials 2015 ,60 (1),41-45 [23] Abdoos H., Khorsand H., Shahani A.R., Fatigue Behavior of Diffusion Bonded Powder Metallurgy Steel with Heterogeneous Microstructure, Materials and Design 30 (2009) 1026–1031