Skip to main content
EXTENDED SEARCH
Log in
Top
Metallurgist
Published in:

12-05-2022

Influence of Welding Regimes on Structure and Properties of Steel 12KH18N10T Weld Metal in Different Spatial Positions

Authors: R. A. Mamadaliev, P. V. Bakhmatov, N. V. Martyushev, V. Yu. Skeeba, A. I. Karlina

Published in: Metallurgist | Issue 11-12/2022

Log in

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

The article delves into the critical factors affecting the quality of welded joints in steel 12KH18N10T, a chromium-nickel stainless steel widely used in the petrochemical industry. It highlights the significance of welding regimes, particularly the use of welding inverters, in maintaining the mechanical properties and corrosion resistance of welded joints. The study compares the performance of welds in different spatial positions—lower, vertical, and overhead—and demonstrates the advantages of using inverters over traditional welding transformers. The research includes detailed microstructural analysis and corrosion resistance tests, revealing that welding inverters allow for more precise control over welding parameters, leading to improved alloying element transfer and reduced defects. The findings have important implications for optimizing welding processes in the manufacturing and construction industries.
AI Generated

This summary of the content was generated with the help of AI.

previous article Features of Phase Transformations in Martensitic Class Steel for Oil Grade High-Strength Corrosion-Resistant Pipes
next article Determination of Mechanical Properties of M0 Copper Strips by Vickers and Brinell Hardness Values During Cold Rolling

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Business + Economics & Engineering + Technology"

Online-Abonnement

Springer Professional "Business + Economics & Engineering + Technology" gives you access to:

  • more than 102.000 books
  • more than 537 journals

from the following subject areas:

  • Automotive
  • Construction + Real Estate
  • Business IT + Informatics
  • Electrical Engineering + Electronics
  • Energy + Sustainability
  • Finance + Banking
  • Management + Leadership
  • Marketing + Sales
  • Mechanical Engineering + Materials
  • Insurance + Risk


Secure your knowledge advantage now!

inform now

Springer Professional "Engineering + Technology"

Online-Abonnement

Springer Professional "Engineering + Technology" gives you access to:

  • more than 67.000 books
  • more than 390 journals

from the following specialised fileds:

  • Automotive
  • Business IT + Informatics
  • Construction + Real Estate
  • Electrical Engineering + Electronics
  • Energy + Sustainability
  • Mechanical Engineering + Materials





 

Secure your knowledge advantage now!

inform now
Literature
1.
O. P. Maksimkin, K. V. Tsai, L. G. Turubarova, N. S. Sil’nyagina, and T. A. Doronina, “Change in microstructure and properties of austenitic steel 12Kh18N10T irradiated with neutrons as a result of post-radiation annealing by radiation with neutrons” Vestn. NYaTs, No. 4, 99–105 (2008).
2.
M. M. Zakirnichnaya, A. T. Chirkovsa, and I. R. Kuzeev, “Change in the structure and properties of pyrolysis furnace coil pipe metal during operation,” Izvest. VUZ Neft’ i Gaz, No. 2, 87–92 (1998).
3.
H. S. Kang and T. S. Kim, “Experimental investigation on the weld metal fracture strength of dissimilar welded connection of carbon steel and austenitic stainless steel,” J. of Architectural Institute of Korea, No. 37 (5), 153–161 (2021).
4.
A. N. Smirnov, N. A. Popova, N. V. Ababkov, E. L. Nikonenko, E. A. Ozhiganov, and N. A. Koneva, “Effect of deformation on structure and phase composition of steel 12Kh18N10T welded joint heat-affected zone,” Fund. Prob. Sovremen. Materialoved., 16, No. 1, 9–15 (2019).
5.
N. A. Popova, A. N. Smirnov, E. L. Nikonenko, N. V. Ababkov, and N. A. Koneva, “Effect of deformation on the structure and phase composition of heat-affected zones of a welded joint of steel 12Kh18N10T,” Izv. Vuz. Fiz., 62, No. 9, 48–56 (2019).CrossRef
6.
N. Yu. Tryakina, E. V. Poyarkova, and V. I. Gryzunov, “Analysis of structure and mechanical property degradation of steel 12Kh18N10T during prolonged operation,” Metalloved. Term. Obrab. Metallov, No. 9, 11–15 (2009).
7.
D. P. Il’yashchenko, Effect of Energy Parameters of Inverter Supply Sources on the Structure and Properties of Joints with Manual Arc Welding, Diss. Cand. Techn. Sci., 05.02.10
8.
I. V. Smirnov, “Comparison of energy efficiency indices for a traditional inverter supply source for arc welding with controlled heat removal,” Alternat. Énerget. Ékol., No. 8, 123–126 (2012).
9.
L. Lu, L. Zhang, W. Sun, Y. Shi, and D. Fan, “Design of special power source for dual-arc pulsed MIG welding and test analysis,” Transactions of the China Welding Institution, No. 39 (4), 53–57 (2018).
10.
V. P. Sidorov, I. V. Smirnov, and S. A. Khurin, “Evaluation of energy efficiency of an inverter supply source for arc welding with controlled heat removal,” Alternat. Énerg. Ékol., No. 11, 96–102 (2011).
11.
A. Bormotov, V. Martynenko, and V. Muskatin’ev, “Some questions of operating IGBT of force moduli,” Komponenty Tekhnol., No. 49, 10–15 (2005).
12.
V. S. Milyutin, R. F. Kataev, and A. V. Polukhin, “Evaluation of regime stability during testing a supply source for manual arc welding,” Svarka Diagnostika, No. 3, 33–38 (2014).
13.
T. N. Nurgaliev, R. B. Abylkalykova, and M. S. Zhaparova, “Study of the structure and phase composition and physicomechanical properties of matrix and welded joint of austenitic steel 12Kh18N10T,” Akt. Nauch. Issled. Sovremen. Mire, No. 3-2, 172–178 (2018).
14.
A. S. Baskoro, R. Hidayat, A. Widyianto, M. A. Amat, and D. U. Putra, “Optimization of gas metal arc welding (Gmaw) parameters for minimum distortion of the welded joints of a36 mild steel by Taguchi method,” Mater. Sci. Forum, 100, 356–363 (2020).CrossRef
15.
D. P. Il’yashchenko, “Study of the chemical composition and microstructure of steel 12Kh18N10T welded joints prepared by different production schemes,” Sovremen. Nauk. Tekhnol., No.3, 73-76 (2015).
16.
T. M. Nurgaliev, et al., “Study of the structure, phase composition, and physicomechanical properties of the matrix of welded joints of austenitic steel 12Kh18N10T,” Aktual. Nauch. Issled. Sovremen. Mire, No. 3-2, 173–178 (2018).
17.
S. I. Dumov, Electric Welding Technology by Melting [in Russian], Mashinostorenie, Moscow (1987).
18.
V. N. Kuskov, R. A. Mamdaleiv, and A. G. Obukhov, “Alloying element transfer in molten metal during welding steel 12Kh18N10T,” Fundament. Issled, 9, No. 11 (2013)
19.
R. A. Mamadaliev, “Effect of welding regime and different current sources on steel 12Kh18N10T welded joint formation,” Obrab. Metall. Tekhnol. Oborud. Instrumenty, 20, No. 4, 35–45 (2018).
20.
R. A. Mamadaliev, “Effect of welding regimes and process rate on alloying element content in a welded joint,” Territoriya Neftegaz, No. 3 (2019).
21.
N. G. Anufriev and R. D. Bakaeva, “Comparative determination of corrosion resistance for steels grades 12Kh15G9ND and 12Kh18N10T under town drainage operation conditions,” Praktika Protivo. Zashchity, No. 1, 23–28 (2012).
22.
M. A. Matvienko, E. N. Kovalyuk, and A. M. Makarova, “Study of alloy steel corrosion resistance,” Vestn. Angar. Gos. Tekhn. Akademii, No. 5, 82–86 (2011).
23.
E. A. Krivonosova, S. N. Akulova, and A. V. Myshkina, “Problem of welded corrosion failure,” Vestn. Perm. Nats. Issled. Poiltekh. Univ. Mashhin, Mater., 19, No. 3 (2017)
24.
M. H. W. Renner, “Comparison of the corrosion behavior of stainless steel weld materials versus base metals in numerous chemical environments,” in: NACE – Intern. Corrosion Conf. Series, 2000-March. Orlando, 26–31 March (2000).
25.
P. V. Bakhmatov, R. A. Mamadaliev, and A. S. Kravchenko, “Change in weld metal structure and properties for multi-pass butt welding of stainless steel process piping,” in: O. G. Shakirova, O. V. Bashkov, and A. A. Khusainov, Current Problems and Ways of Industry Development: Equipment and Technologies, Lecture Notes in Networks and Systems. Vol. 200. Springer, Cham. https://​doi.​org/​10.​1007/​978-3-030-69421-0_​53/​.
26.
A. F Korenyakin, A. G. Kudasov, A. A. Khalyavkin, and T. É. Panteleeva, “Effect of welded joint shape and position on electrode consumption with manual arc welding,” in: Internat. Sci. Pract. Conf: Innovative Solution Models for Improving Competitiveness of Domestic Science [in Russian] (Chelyabinsk, 04.06.2020), Ufa: OMEGA SAINS (2020).
Metadata
Title
Influence of Welding Regimes on Structure and Properties of Steel 12KH18N10T Weld Metal in Different Spatial Positions
Authors
R. A. Mamadaliev
P. V. Bakhmatov
N. V. Martyushev
V. Yu. Skeeba
A. I. Karlina
Publication date
12-05-2022
Publisher
Springer US
Published in
Metallurgist / Issue 11-12/2022
Print ISSN: 0026-0894
Electronic ISSN: 1573-8892
DOI
https://doi.org/10.1007/s11015-022-01271-9

Other articles of this Issue 11-12/2022

Implementation of Technology for Preparing Blast Furnace Sludge for Subsequent Use in Sinter Charges at the Yenakiyeve Iron and Steel Works

Impact Strength of Low-Carbon Steel 09G2S Welded Joint Metal

HC Vniimetmash Low-Tonnage Cold Rolling Mills

Thermodynamic and Kinetic Features of Phosphorus Oxidation during Phosphorous Cast Iron Treatment

Promising Methods for Forming the Structure and Properties of Metal Obtained by Crystallization Under the Action of Centrifugal Forces

Integral Quality Index for Iron Ore Raw Materials and Cast Iron Composition Prediction

Premium Partners

    Image Credits