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INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES

Yıl 2020, Cilt 4, Sayı 4, 151 - 156, 28.12.2020

Öz

Temperature is one of the process parameters that pose great challenges in iron Production Company. This study therefore focuses on the investigation of temperature effect on the mechanical properties of the produced iron. The mechanical properties studied in this research were tensile strength, hardness, Young Modulus of Elasticity and Shear modulus. The types of Iron used in this research are Wrought Iron, Pig Iron and White cast Iron respectively. The mechanical properties of these types of Iron were determined at various temperatures which ranged from 20oC to 920oC respectively. From the investigation, the optimal tensile strength of Wrought Iron, Pig Iron and White cast Iron were 1442MPa, 1340MPa and 1200MPa at temperature of 20oC, 20oC and 820oC respectively. The optimal Young Modulus of Elasticity of Wrought Iron, Pig Iron and White cast Iron are 98.2GPa, 93.1GPa and 87GPa at temperature of 20oC, 20oC and 20oC respectively. The optimal Shear Modulus of Wrought Iron, Pig Iron and White cast Iron are 77.5GPa, 74.5GPa and 65.3GPa at temperature 20oC, 272.5oC and 520.2oC respectively. The optimal Rockwell Hardness Number of Wrought Iron, Pig Iron and White cast Iron are 60, 56 and 60 at temperature of 20oC, 70oC and 570oC respectively. The results obtained shows that temperature have great effect on the mechanical properties of the iron produced in Iron manufacturing industries.

Kaynakça

  • [1] Allain, S., Chateau, J. P., and Bouaziz, O. (2004a). A Physical Model of the Twinning-Induced Plasticity Effect in a High Manganese Austenitic Steel. Matererial Science Engineering. A. 387–389, 143–147.
  • [2] Allain, S., Chateau, J. P., Bouaziz, O., and Guelton, S. N. (2004b). Correlations between the Calculated Stacking Fault Energy and the Plasticity Mechanisms in Fe–Mn–C alloys. Matererial Science Engineering. A 387–389, 158–162.
  • [3] Bouaziz, O., Allain, S., Scott, C. P., Cugy, P., and Barbier, D. (2011). High Manganese Austenitic Twinning Induced Plasticity Steels: A Review of the Microstructure Properties Relationships. Current Solid State Material Science. 15, 141–168. [4] Fu, L. M., Li, Z. M., Wang, H. N., Wang, W., and Shan, A. D. (2012). Lüders-like Deformation Induced by Delta-Ferrite-Assisted Martensitic Transformation in a Dual-Phase High-Manganese Steel. Scrience Material Journals. 67, 297–300.
  • [5] Ghasri-Khouzani, M., and McDermid, J. R. (2017). Microstructural Evolution and Mechanical Behaviour of Fe-30Mn-C Steels with Various Carbon Contents. Material Science Technology. 33, 1159-1170.doi:10.1080/02670836.2016.1268662
  • [6]Wang, Y. H., Shi, B. D., He, Y. M., Zhang, H. W., Peng, Y., and Wang, T. S. (2018a). A Fine Grain, High Mn Steel with Excellent Cryogenic Temperature Properties and Corresponding Constitutive Behaviour. Materials Science Journal. 11:E253. [7]Wang, Y. H., Kang, J. M., Peng, Y., Wang, T. S., Hansen, N., and Huang, X. X. (2018b). Laminated Fe-34.5 Mn-0.04C Composite with High Strength and Ductility. J. Mater. Sci. Technol. 34, 1939–1943.
  • [8]Wang, Y. H., Kang, J. M., Peng, Y., Wang, T. S., Hansen, N., and Huang, X. X. (2018c). Hall-Petch Strengthening in Fe-34.5Mn-0.04C Steel Cold-rolled, Partially Recrystallized and Fully Recrystallized. Science Materials. 155, 41–45.
  • [9] Shterner, V., Timokhina, I. B., and Beladi, H. (2014). The Correlation Between Stacking Fault Energy and the Work Hardening Behaviour of High-Mn Twinning Induced Plasticity Steel Tested at Various Temperatures. Adv. Mater. Res. 922, 676–681.

Yıl 2020, Cilt 4, Sayı 4, 151 - 156, 28.12.2020

Öz

Kaynakça

  • [1] Allain, S., Chateau, J. P., and Bouaziz, O. (2004a). A Physical Model of the Twinning-Induced Plasticity Effect in a High Manganese Austenitic Steel. Matererial Science Engineering. A. 387–389, 143–147.
  • [2] Allain, S., Chateau, J. P., Bouaziz, O., and Guelton, S. N. (2004b). Correlations between the Calculated Stacking Fault Energy and the Plasticity Mechanisms in Fe–Mn–C alloys. Matererial Science Engineering. A 387–389, 158–162.
  • [3] Bouaziz, O., Allain, S., Scott, C. P., Cugy, P., and Barbier, D. (2011). High Manganese Austenitic Twinning Induced Plasticity Steels: A Review of the Microstructure Properties Relationships. Current Solid State Material Science. 15, 141–168. [4] Fu, L. M., Li, Z. M., Wang, H. N., Wang, W., and Shan, A. D. (2012). Lüders-like Deformation Induced by Delta-Ferrite-Assisted Martensitic Transformation in a Dual-Phase High-Manganese Steel. Scrience Material Journals. 67, 297–300.
  • [5] Ghasri-Khouzani, M., and McDermid, J. R. (2017). Microstructural Evolution and Mechanical Behaviour of Fe-30Mn-C Steels with Various Carbon Contents. Material Science Technology. 33, 1159-1170.doi:10.1080/02670836.2016.1268662
  • [6]Wang, Y. H., Shi, B. D., He, Y. M., Zhang, H. W., Peng, Y., and Wang, T. S. (2018a). A Fine Grain, High Mn Steel with Excellent Cryogenic Temperature Properties and Corresponding Constitutive Behaviour. Materials Science Journal. 11:E253. [7]Wang, Y. H., Kang, J. M., Peng, Y., Wang, T. S., Hansen, N., and Huang, X. X. (2018b). Laminated Fe-34.5 Mn-0.04C Composite with High Strength and Ductility. J. Mater. Sci. Technol. 34, 1939–1943.
  • [8]Wang, Y. H., Kang, J. M., Peng, Y., Wang, T. S., Hansen, N., and Huang, X. X. (2018c). Hall-Petch Strengthening in Fe-34.5Mn-0.04C Steel Cold-rolled, Partially Recrystallized and Fully Recrystallized. Science Materials. 155, 41–45.
  • [9] Shterner, V., Timokhina, I. B., and Beladi, H. (2014). The Correlation Between Stacking Fault Energy and the Work Hardening Behaviour of High-Mn Twinning Induced Plasticity Steel Tested at Various Temperatures. Adv. Mater. Res. 922, 676–681.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Articles
Yazarlar

Dıckson Davıd OLODU (Sorumlu Yazar)
Benson Idahosa University
0000-0003-3383-2543
Nigeria


Cyril ALİYEGBENOMA
University of Benin
0000-0003-0056-7763
Nigeria

Yayımlanma Tarihi 28 Aralık 2020
Yayınlandığı Sayı Yıl 2020, Cilt 4, Sayı 4

Kaynak Göster

Bibtex @araştırma makalesi { ijesa789252, journal = {International Journal of Engineering Science and Application}, issn = {2548-1185}, eissn = {2587-2176}, address = {Sadabad Kampüsü Hasbahçe Cad. No.88 34406 Kağıthane / İstanbul}, publisher = {Nişantaşı Üniversitesi}, year = {2020}, volume = {4}, pages = {151 - 156}, doi = {}, title = {INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES}, key = {cite}, author = {Olodu, Dıckson Davıd and Aliyegbenoma, Cyril} }
APA Olodu, D. D. & Aliyegbenoma, C. (2020). INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES . International Journal of Engineering Science and Application , 4 (4) , 151-156 . Retrieved from https://dergipark.org.tr/tr/pub/ijesa/issue/58838/789252
MLA Olodu, D. D. , Aliyegbenoma, C. "INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES" . International Journal of Engineering Science and Application 4 (2020 ): 151-156 <https://dergipark.org.tr/tr/pub/ijesa/issue/58838/789252>
Chicago Olodu, D. D. , Aliyegbenoma, C. "INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES". International Journal of Engineering Science and Application 4 (2020 ): 151-156
RIS TY - JOUR T1 - INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES AU - Dıckson Davıd Olodu , Cyril Aliyegbenoma Y1 - 2020 PY - 2020 N1 - DO - T2 - International Journal of Engineering Science and Application JF - Journal JO - JOR SP - 151 EP - 156 VL - 4 IS - 4 SN - 2548-1185-2587-2176 M3 - UR - Y2 - 2020 ER -
EndNote %0 International Journal of Engineering Science and Application INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES %A Dıckson Davıd Olodu , Cyril Aliyegbenoma %T INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES %D 2020 %J International Journal of Engineering Science and Application %P 2548-1185-2587-2176 %V 4 %N 4 %R %U
ISNAD Olodu, Dıckson Davıd , Aliyegbenoma, Cyril . "INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES". International Journal of Engineering Science and Application 4 / 4 (Aralık 2020): 151-156 .
AMA Olodu D. D. , Aliyegbenoma C. INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES. IJESA. 2020; 4(4): 151-156.
Vancouver Olodu D. D. , Aliyegbenoma C. INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES. International Journal of Engineering Science and Application. 2020; 4(4): 151-156.
IEEE D. D. Olodu ve C. Aliyegbenoma , "INVESTIGATION OF DIFFERENT DEVELOPED IRON IN IRON PRODUCTION COMPANIES", International Journal of Engineering Science and Application, c. 4, sayı. 4, ss. 151-156, Ara. 2021

ISSN 2548-1185
e-ISSN 2587-2176
Period: Quarterly
Founded: 2016
Publisher: Nisantasi University
e-mail:ilhcol@gmail.com