Influence of Friction Pressure at a Given  Burn-off Length on the Mechanical and Microstructural Properties of Welded Joints from Medium-Carbon Alloyed Steels in Rotaty Friction Welding

Priymak, E. Yu.; Firsova, N. V.; Bashirova, Elena; Sergienko, S. A.; Kuzmina, E. A.; Atamashkin, A. S.

doi:10.14419/ijet.v7i4.36.24934

Cited by 2 publications

(2 citation statements)

References 14 publications

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“…Changing the forging force in the studied range of parameters did not have a signi cant effect on the pro les and microhardness values. However, an increase in the friction force during the heating stage noticeably increased the microhardness in TMAZ steel 4340 to values of 680 HV, which is associated with an increase in temperature during the friction stage of steels and a more complete martensitic transformation during cooling, as was previously observed in [21,22].…”

Section: Microhardnesssupporting

confidence: 73%

Influence of force parameters of rotary friction welding on the microstructure and mechanical properties of welded joints of high-strength drill pipes

Atamashkin,

Priymak,

Tulibaev

et al. 2024

Preprint

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The present investigation provides an assessment of the influence of the force parameters of rotary friction welding (RFW), namely the friction force and the forging force during welding tubular samples with a diameter of 73 mm and a wall thickness of 9 mm from Cr-Mn-Mo steel G105 according to API 5DP in connection with AISI 4340 The microstructure, microhardness, tensile mechanical properties and impact strength of welded joints after welding and after post-weld stress-relieving tempering were studied. The evolution of the microstructure was studied using optical and scanning electron microscopy. The length of microstructural features of the joint such as thermomechanically affected zone (TMAZ) and heat affected zone (HAZ) were measured. The welded joint of G105 and AISI4340 steels under the studied conditions has equal tensile strength compared to the base G105 steel, both in the initial state after welding and after post-weld tempering. It has been shown that carbide particles of various morphologies, separated during welding and subsequent tempering, play a major role in the processes of strengthening the thermomechanical affected zone (TMAZ). The tensile failure location is fixed in the G105 base steel. It has been established that welding power parameters influence the impact toughness of the steel interface zone: with an increase in welding force parameters, an increase in impact toughness and fracture ductility occurs. The highest impact strength occurs after the following welding parameters: friction force 145 kN, forging force 280 kN, rotation speed during friction 600 rpm, burn-off length 7 mm and subsequent tempering at 550oC. Fractographic studies have established that the fracture surface after this treatment consists entirely of small dimples of ductile fracture. This mode can be recommended as optimal for obtaining an equal-strength connection with high impact strength.

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Section: Microhardnesssupporting

confidence: 73%

Influence of force parameters of rotary friction welding on the microstructure and mechanical properties of welded joints of high-strength drill pipes

Atamashkin,

Priymak,

Tulibaev

et al. 2024

Preprint

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“…Previous works was focused on the study of the evolution of the structure and the mechanism of formation of welded joints from 32G2 and 40 KhN [13,14], the study of texture in TMAZ [15], as well as residual welding stresses [16]. In [17], the influence of the friction pressure on the structure characteristics the and tensile properties of these welded joints was studied separately. However, there is no more complete picture reflecting the effect of several welding parameters on the welded joints properties from these steels.…”

Section: Introductionmentioning

confidence: 99%

Influence of Rotary Friction Welding Parameters on Tensile Strength and Length of TMAZ of Dissimilar Welded Joints from 32G2 and 40KhN Steels

Atamashkin

Priymak

Kuzmina

2021

DDF

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In this work, pipe billets with a diameter of 73 mm and a wall thickness of 9 mm from steels 32G2 and 40KhN are friction welded with an aim to optimize the process parameters. The friction pressure, the forging pressure and the length of the fusion varied. After the implementation of various welding modes, tensile tests and metallographic studies were carried out. The optimal welding parameters have been established, which make it possible to obtain tensile strength at the level of the 32G2 base metal. The study results of the microstructure and SEM fractographs after the optimal welding mode are presented.

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Influence of Friction Pressure at a Given Burn-off Length on the Mechanical and Microstructural Properties of Welded Joints from Medium-Carbon Alloyed Steels in Rotaty Friction Welding

Cited by 2 publications

References 14 publications

Influence of force parameters of rotary friction welding on the microstructure and mechanical properties of welded joints of high-strength drill pipes

Influence of force parameters of rotary friction welding on the microstructure and mechanical properties of welded joints of high-strength drill pipes

Influence of Rotary Friction Welding Parameters on Tensile Strength and Length of TMAZ of Dissimilar Welded Joints from 32G2 and 40KhN Steels

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