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Article Details

Article Details

  • Article Code : FIRAT-AKADEMI-6375-5457
  • Article Type : Araştırma Makalesi
  • Publication Number : 2A0187
  • Page Number : 39-52
  • Doi : 10.12739/NWSA.2022.17.1.2A0187
  • Abstract Reading : 621
  • Download : 198
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Issue Details

  • Year : 2022
  • Volume : 17
  • Issue : 1
  • Number of Articles Published : 2
  • Published Date : 1.01.2022

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Dergi Kapağı
Technological Applied Sciences

Serial Number : 2A
ISSN No. : 1308-7223
Release Interval (in a Year) : 4 Issues

İhsan KIRIK 1 , Derya ABAK2

Keywords

FRICTION WELDING OF AISI 1020 WITH RAMOR 500 STEEL: MICROSTRUCTURE, TENSILE AND FATIGUE STRENGTH

İhsan KIRIK 1 , Derya ABAK2

The joint of dissimilar materials like Ramor steel and low carbon steel is very important for defense industry in term of improve functionality of components and enhance the working limits. In this study, Ramor 500 and AISI 1020 steel, which are widely used in the defense industry, were joined using the continuous driven friction welding method and the effects of production parameters on the joint micro structure and mechanical properties were investigated. SEM, EDX, X-Ray and Hardness analyzes were performed for macro and microstructure analyses. According to the tensile test results, the rotary bending fatigue test was also used to determine the mechanical properties. As a result, the correct selection of production parameters is of great importance for joining Ramor 500 and AISI 1020 steel with different properties. Tensile strengths and fatigue strength were increased compared to main materials.

Keywords
Ramor 500,, Friction Welding, Tensile Strength, Fatigue Strength , Fractography,

Details
   

Authors

İhsan KIRIK (1) (Corresponding Author)
BİNGÖL ÜNİVERSİTESİ
alihsankirik@gmail.com | 0000-0002-8361-319X

Derya ABAK (2)

Bingöl üniversitesi
dabak902@gmail.com | 0000-0001-9862-7888

Supporting Institution

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Project Number

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Thanks

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References
[1] Crouch, I.G., Cimpoeru, S.J., Li, H., et al., (2017). The science of armour materials. Woodhead Publishing in Materials. 55-115.

[2] U.S. Military Specification, (2009). MIL-DTL-12560J (MR), Armor plate, steel, wrought, homogeneous, U.S. Army Research Laboratory, Aberdeen Proving Ground.

[3] U.S. Military Specification, (2008). MIL-DTL-46100E (MR), Armor plate, steel, wrought, high-hardness, U.S. Army Research Laboratory, Aberdeen Proving Ground.

[4] U.S. Military Specification, (2009). MIL-DTL-32332 (MR), Armor plate, steel, wrought, ultra-high hardness, U.S. Army Research Laboratory, Aberdeen Proving Ground.

[5] Nowacki, J. and Lukojc, A., (2005). Structure and properties of the heat-Affected zone of duplex steels welded joints. Journal Mater Process Technology, 164:1074-1081.

[6] Ade, F., (1991). Ballistic qualification of armour steel weldments. Welding Journal, 70:53-54.

[7] Kırık, İ., (2015). Effect of temperature on microstructure and mechanical behavior of diffusion bonded Armor 500 and AISI 1040 steels. Materials Testing, 57(4):296-300, DOI:10.3139/120.110716.

[8] Sarsılmaz, F., Kırık, I., and Batı, S., (2017). Microstructure and mechanical properties of armor 500/AISI2205 steel joint by friction welding. Journal of Manufacturing Processes, 28:131-136.

[9] Merzali, C., (2013). Improving the properties of the heat affected zone after welding in armor steels by heat treatment. Master’s thesis. İstanbul Teknik Üniversitesi, Turkey.

[10] Bekçi, M.L., Canpolat, B.H., Usta, E., et al., (2021). Ballistic performances of Ramor 500 and Ramor 550 armor steelsat mono and bilayered plate configurations. Engineering Science and Technology an International Journal, 24:990–995.

[11] Pakandam, F. and Varvani-Farahani, A., (2010). A comparative study on fatigue damage assessment of welded joints under uniaxial loading based on energy methods. Procedia Engineering, 2:2027–2035.

[12] Teker, T. and Özdemir, N., (2012). Weldability and joining characteristics of AISI 430/ AISI 1040 steels using keyhole plasma arc welding. The International Journal of Advanced Manufacturing Technology, 63:1-4, DOI:10.1007/s00170-011-3890-5.

[13] Cimpoeru, S.J., (2017). The mechanical metallurgy of armour steels, Defence Science and Technology Group DST-Group-TR-3305. (2016):1-32.

[14] Crouch, I.G., Cimpoeru, S.J., Li, H., et al., (2017). Armour steels. The Science of Armour Materials, 55–115, DOI:10.1016/b978-0-08-100704-4.00002-5.

[15] Nihal, Y., Yeliz, P., and Kubilay, A., (2013). Investigation of deformation characteristics of composite materials used in armor design. Electronic Journal of Machine Technologies, 10(4):1-21.

[16] Taşkaya, S. and Gür, A.K., (2019). Investigation of the penetration balance of the wire feed speed in the weld metal in joining ramor 500 Armor Steel by Submerged Submerged Welding Method. GÜFBED/GUSTIJ, 9(3):444-453.

[17] Özdemir, N., Sarsılmaz, F., and Hasçalık, A., (2007). Effect of rotational speed on the interface properties of friction-welded AISI 304L to 4340 steel. Materials and Design, 28:301–307.

[18] Ali, G., Selçuk, B., and Mustafa, S.K., (2019). Effect of different arc welding processes on the metallurgical and mechanical properties of Ramor 500 armor steel. Journal of Engineering Materials and Technology, 142(2):1-23, DOI:10.1115/1.4045569.

[19] Rajesh Jesudoss Hynes, N., and Shenbaga Velu, P., (2018). Microstructural and mechanical properties on friction welding of dissimilar metals used in motor vehicles. Materials Research Express, DOI:10.1088/2053-1591/aaabe6.

[20] Lee, D.G., Jang, K.C., Kuk, J.M., et al., (2004). Fatigue properties of inertia dissimilar friction-welded stainless steels. Journal Mater Process Technology, 155–156:1402–1407.

[21] Özdemir, N. and Orhan, N., (2005). Microstructure and mechanical properties of friction welded joints of a fine-grained hypereutectoid steel with 4%Al. Journal of Materials Processing Technology, 166(1):63-70, DOI:10.1016/j.jmatprotec.2004.07.095.

[22] Adin, M.S. and Okumuş, M., (2021). Investigation of microstructural and mechanical properties of dissimilar metal weld between AISI 420 and AISI 1018 steels. Arabian Journal for Science and Engineering, DOI:10.1007/s13369-021-06243-w.

[23] Mercan, S., Aydın, S., and Özdemir, N., (2015). Effect of welding parameters on the fatigue properties of dissimilar AISI 2205–AISI 1020 joined by friction welding. International Journal of Fatigue, 81:78–90.