Comparison of Surface Hardening Processes Applied to AISI 5140 Steel withSide Load Test

Talha İkbal Çığır; Ahmet Asım Eser; Furkan Göğer; Mustafa Acarer

doi:10.30939/ijastech..1370591

Research Article

Comparison of Surface Hardening Processes Applied to AISI 5140 Steel withSide Load Test

Year 2024, Volume: 8 Issue: 1, 87 - 95, 31.03.2024

Talha İkbal Çığır Ahmet Asım Eser Furkan Göğer Mustafa Acarer

https://doi.org/10.30939/ijastech..1370591

Abstract

AISI 5140 Tempered steel is generally preferred in the joints of vehicles. This steel is a material with high toughness. Its usage areas are quite wide. The purpose of the surface hardening process is to increase the wear resistance of surfaces exposed to wear, as well as to increase the fatigue life of the part and increase corrosion resistance. Since the inner parts of the parts are not affected by surface hardening, the resistance to impacts increases and therefore the formation of cracks on the surface is delayed. Surface hardening processes delay the formation of cracks on the surface and extend fatigue life. In this study, a comparison was made between a part with induction surface hardening, which is one of the methods in which the chemical composition of the surface is not changed, a part with nitration, which is one of the methods in which the chemical composition is not changed, and a part with standard reclamation heat treatment. Side Load test, a static testing method, was used for this comparison. In the Side Load test, the samples were compressed from the conical region and a vertical load was applied corresponding to the center of the joint. According to the results obtained in the tests, the sample with Induction surface hardening process withstood 64500 N, the sample with Nitriding heat treatment withstood 54500 N and the sample with Standard tempering heat treatment withstood 50200 N. According to the results obtained, the sample with the highest durability rate is the sample whose surface was hardened by induction.

Keywords

ANSI 5140, Induction, nitration, Side Load Test

Supporting Institution

AYD OTOMOTİV

References

[1] Volosova M, Grigoriev S, Metel A, Shein A. The Role of Thin-film Vacuum-plasma Coatings and Their Influence on the Efficiency of Ceramic Cutting Inserts. Coatings. 2018; 8: 287. https://doi.org/10.3390/coatings8080287
[2] Vereschaka A, Tabakov V, Grigoriev S, Sitnikov N, Milovich F, Andreev N, Sotova C, Kutina N. Investigation of the Influ-ence of the Thickness of Nanolayers in Wear-resistant Layers of Ti-TiN-(Ti,Cr,Al)N Coating on Destruction in the Cutting and Wear of Carbide Cutting Tools. Surf Coat Technol. 2020; 385: 125402. https://doi.org/10.3390/coatings10121204
[3] Grigoriev S, Vereschaka A, Milovich F, Sitnikov N, Andreev N, Bublikov J, et al. Investigation of the Influence of Micro-droplets on the Coatings Nanolayer Structure. Coatings. 2020 Dec 10;10(12):1204. https://doi.org/10.3390/coatings13020335
[4] Güven Ş, Delikanlı K, Öncel E. AISI 4140 Çeliğine Uygu-lanan İyon Nitrasyon Yüzey Sertleştirme İşleminin Yorulma Dayanımına Etkisi. Teknik Bilimler Dergisi. 2014; 4(2): 29-39.
[5] Schneider MJ, Chatterjee MS. Introduction to Surface Harden-ing of Steels. In ASM Handbook. In Steel Heat Treating Fun-damentals; 2013.
[6] ASM International Handbook Committee. Properties and se-lection: nonferrous alloys and special-purpose materials. ASM International. 1992; 2: 1143-1144.
[7] Celik SA. Sementasyon Isleminin Yorulma Ozellikleri Uzerine Etkisinin Arastirilmasi. Suleyman Demirel University; 1995.
[8] Prabhudev KH. Handbook of Heat Treatment of Steels. Tata McGraw-Hill; 1988.
[9] Töre C. Mekanik Tasarımda Çelik ve Özellikleri. TMMOB Makina Mühendisleri Odası; 2007.
[10] Totten GE, Howes MAH. Steel Heat Treatment Handbook. CRC Press; 1997.
[11] Rahman SMM, Karim KE, Simanto MHS. Effect of Heat Treatment on Low Carbon Steel: An Experimental Investiga-tion. Applied Mechanics and Materials. 2016; 860: 7-12. https://doi.org/10.4028/www.scientific.net/AMM.860.7
[12] Berns H, Theisen W. Ferrous materials: Steel and cast iron, Springer Science & Business Media; 2008.
[13] Badaruddin M, Wardono H, Wang CJ, Rivai AK. Improve-ment of Low-cycle Fatigue Resistance in AISI 4140 Steel by Annealing Treatment. International Journal of Fatigue. 2019; 125: 406-417. https://doi.org/10.1016/j.ijfatigue.2019.04.020
[14] Meysami AH, Ghasemzadeh R, Seyedein SH, Aboutalebi MR. An Investigation on the Microstructure and Mechanical Prop-erties of Direct-quenched and Tempered AISI 4140 Steel. Ma-terials & Design. 2010; 31(3): 1570-1575. https://doi.org/10.1016/j.matdes.2009.09.040

Year 2024, Volume: 8 Issue: 1, 87 - 95, 31.03.2024

Talha İkbal Çığır Ahmet Asım Eser Furkan Göğer Mustafa Acarer

https://doi.org/10.30939/ijastech..1370591

Abstract

References

[1] Volosova M, Grigoriev S, Metel A, Shein A. The Role of Thin-film Vacuum-plasma Coatings and Their Influence on the Efficiency of Ceramic Cutting Inserts. Coatings. 2018; 8: 287. https://doi.org/10.3390/coatings8080287
[2] Vereschaka A, Tabakov V, Grigoriev S, Sitnikov N, Milovich F, Andreev N, Sotova C, Kutina N. Investigation of the Influ-ence of the Thickness of Nanolayers in Wear-resistant Layers of Ti-TiN-(Ti,Cr,Al)N Coating on Destruction in the Cutting and Wear of Carbide Cutting Tools. Surf Coat Technol. 2020; 385: 125402. https://doi.org/10.3390/coatings10121204
[3] Grigoriev S, Vereschaka A, Milovich F, Sitnikov N, Andreev N, Bublikov J, et al. Investigation of the Influence of Micro-droplets on the Coatings Nanolayer Structure. Coatings. 2020 Dec 10;10(12):1204. https://doi.org/10.3390/coatings13020335
[4] Güven Ş, Delikanlı K, Öncel E. AISI 4140 Çeliğine Uygu-lanan İyon Nitrasyon Yüzey Sertleştirme İşleminin Yorulma Dayanımına Etkisi. Teknik Bilimler Dergisi. 2014; 4(2): 29-39.
[5] Schneider MJ, Chatterjee MS. Introduction to Surface Harden-ing of Steels. In ASM Handbook. In Steel Heat Treating Fun-damentals; 2013.
[6] ASM International Handbook Committee. Properties and se-lection: nonferrous alloys and special-purpose materials. ASM International. 1992; 2: 1143-1144.
[7] Celik SA. Sementasyon Isleminin Yorulma Ozellikleri Uzerine Etkisinin Arastirilmasi. Suleyman Demirel University; 1995.
[8] Prabhudev KH. Handbook of Heat Treatment of Steels. Tata McGraw-Hill; 1988.
[9] Töre C. Mekanik Tasarımda Çelik ve Özellikleri. TMMOB Makina Mühendisleri Odası; 2007.
[10] Totten GE, Howes MAH. Steel Heat Treatment Handbook. CRC Press; 1997.
[11] Rahman SMM, Karim KE, Simanto MHS. Effect of Heat Treatment on Low Carbon Steel: An Experimental Investiga-tion. Applied Mechanics and Materials. 2016; 860: 7-12. https://doi.org/10.4028/www.scientific.net/AMM.860.7
[12] Berns H, Theisen W. Ferrous materials: Steel and cast iron, Springer Science & Business Media; 2008.
[13] Badaruddin M, Wardono H, Wang CJ, Rivai AK. Improve-ment of Low-cycle Fatigue Resistance in AISI 4140 Steel by Annealing Treatment. International Journal of Fatigue. 2019; 125: 406-417. https://doi.org/10.1016/j.ijfatigue.2019.04.020
[14] Meysami AH, Ghasemzadeh R, Seyedein SH, Aboutalebi MR. An Investigation on the Microstructure and Mechanical Prop-erties of Direct-quenched and Tempered AISI 4140 Steel. Ma-terials & Design. 2010; 31(3): 1570-1575. https://doi.org/10.1016/j.matdes.2009.09.040

There are 14 citations in total.

Details

Primary Language	English
Subjects	Automotive Engineering (Other)
Journal Section	Research Articles
Authors	Talha İkbal Çığır 0009-0007-4509-4484 Ahmet Asım Eser This is me 0000-0001-9946-4689 Furkan Göğer This is me 0000-0002-7843-2757 Mustafa Acarer 0000-0003-2876-4881
Publication Date	March 31, 2024
Submission Date	October 3, 2023
Acceptance Date	January 28, 2024
Published in Issue	Year 2024 Volume: 8 Issue: 1

Cite

APA	Çığır, T. İ., Eser, A. A., Göğer, F., Acarer, M. (2024). Comparison of Surface Hardening Processes Applied to AISI 5140 Steel withSide Load Test. International Journal of Automotive Science And Technology, 8(1), 87-95. https://doi.org/10.30939/ijastech..1370591
AMA	Çığır Tİ, Eser AA, Göğer F, Acarer M. Comparison of Surface Hardening Processes Applied to AISI 5140 Steel withSide Load Test. ijastech. March 2024;8(1):87-95. doi:10.30939/ijastech.1370591
Chicago	Çığır, Talha İkbal, Ahmet Asım Eser, Furkan Göğer, and Mustafa Acarer. “Comparison of Surface Hardening Processes Applied to AISI 5140 Steel WithSide Load Test”. International Journal of Automotive Science And Technology 8, no. 1 (March 2024): 87-95. https://doi.org/10.30939/ijastech. 1370591.
EndNote	Çığır Tİ, Eser AA, Göğer F, Acarer M (March 1, 2024) Comparison of Surface Hardening Processes Applied to AISI 5140 Steel withSide Load Test. International Journal of Automotive Science And Technology 8 1 87–95.
IEEE	T. İ. Çığır, A. A. Eser, F. Göğer, and M. Acarer, “Comparison of Surface Hardening Processes Applied to AISI 5140 Steel withSide Load Test”, ijastech, vol. 8, no. 1, pp. 87–95, 2024, doi: 10.30939/ijastech..1370591.
ISNAD	Çığır, Talha İkbal et al. “Comparison of Surface Hardening Processes Applied to AISI 5140 Steel WithSide Load Test”. International Journal of Automotive Science And Technology 8/1 (March 2024), 87-95. https://doi.org/10.30939/ijastech. 1370591.
JAMA	Çığır Tİ, Eser AA, Göğer F, Acarer M. Comparison of Surface Hardening Processes Applied to AISI 5140 Steel withSide Load Test. ijastech. 2024;8:87–95.
MLA	Çığır, Talha İkbal et al. “Comparison of Surface Hardening Processes Applied to AISI 5140 Steel WithSide Load Test”. International Journal of Automotive Science And Technology, vol. 8, no. 1, 2024, pp. 87-95, doi:10.30939/ijastech. 1370591.
Vancouver	Çığır Tİ, Eser AA, Göğer F, Acarer M. Comparison of Surface Hardening Processes Applied to AISI 5140 Steel withSide Load Test. ijastech. 2024;8(1):87-95.