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Tytuł artykułu

Nitrogen And Oxygen Amount In Weld After Welding With Micro-Jet Cooling

Treść / Zawartość
Identyfikatory
Warianty tytułu
PL
Zawartość azotu i tlenu w stalowym spoinie po spawaniu z chłodzeniem mikro-jetowym
Języki publikacji
EN
Abstrakty
EN
Micro-jet cooling after welding was tested only for MIG welding process with argon, helium and nitrogen as a shielded gases. A paper presents a piece of information about nitrogen and oxygen in weld after micro-jet cooling. There are put down information about gases that could be chosen both for MIG/MAG welding and for micro-jet process. There were given main information about influence of various micro-jet gases on metallographic structure of steel welds. Mechanical properties of weld was presented in terms of nitrogen and oxygen amount in WMD (weld metal deposit).
PL
Chłodzenie mikro-jetowe było stosowane tylko w spawalniczym procesie MIG, gdzie gazem osłonowym były argon, hel i azot. W artykule przedstawiono informacje na temat zawartości azotu i tlenu w spoinie po chłodzeniu mikro-jetowym. Podano informacje zarówno dla gazów, które mogą być wybrane dla spawania MIG/MAG i dla mikro-jetowego procesu. Uzyskano informacje o wpływie doboru gazu mikro-jetowego na strukturę metalograficzną stalowych spoin. Własności mechaniczne złącza podano w funkcji zawartości azotu i tlenu w stopiwie.
Twórcy
autor
  • Silesian Uniwersity of Technology, Faculty of Transport, 8 Krasińskiego Str., 40-019 Katowice, Poland
autor
  • Białostock Univesity of Technology, Faculty of Mechanical Engineering, 45c Wiejska Str., 15-351 Białystok, Poland
Bibliografia
  • [1] T. Węgrzyn, Proposal of welding methods in terms of the amount of oxygen, Archives of Materials Science and Engineering 47, 1, 57-61 (2011).
  • [2] R. Burdzik, Monitoring system of vibration propagation in vehicles and method of analysing vibration modes, J. Mikulski (Ed.): Communications in Computer and Information Science, 329, 406-413, Springer, Heidelberg (2012).
  • [3] B. Slazak, J. Slania, T. Węgrzyn, A.P. Silva, Process Stability Evaluation of Manual Metal Arc Welding Using Digital Signals, reprint from VI International Materials Symposium, Materiais 2011, Guimarães, Portugal, 18-20 Abril 2011, full paper published in Materials Science Forum Vols. 730-732 (2013) online www.scientific.net, copywright Trans Tech Publications, Switzerland, 847-852.
  • [4] T. Węgrzyn, J. Mirosławski, A. Silva, D. Pinto, M. Miros, Oxide inclusions in steel welds of car body. Materials Science Forum 2010 vol. 6.
  • [5] T. Kasuya, Y. Hashiba, S. Ohkita, M. Fuji, Hydrogen distribution in multipass submerged arc weld metals, Science and Technology of Welding&Joining 6, 4, 261-266 (2001).
  • [6] J. Słania, Influence of phase transformations in the temperature ranges of 1250-1000°C and 650-350°C on the ferrite content in austenitic welds made with T 23 12 LRM3 tubular electrode. Archives of Metallurgy and Materials, zeszyt 3, (2005).
  • [7] K. Krasnowski, Influence of Stress Relief Annealing on Mechanical Properties and Fatigue Strength of Welded Joints of Thermo-Mechanically Rolled Structural Steel Grade S420MC. Archives of Metallurgy 54, 4 (2009).
  • [8] T. Węgrzyn, Mathematical Equations of the Influence of Molybdenum and Nitrogen in Welds. Conference of International Society of Offshore and Polar Engineers ISOPE2002, Kita Kyushu, Japan 2002, Copyright by International Society of Offshore and Polar Engineers, vol. IV, ISBN 1-880653-58-3, Cupertino - California - USA 2002.
  • [9] R. Burdzik, Z. Stanik, J. Warczek, Method of assessing the impact of material properties on the propagation of vibrations excited with a single force impulse, Archives of Metallurgy and Materials 57, 2, 409-416 (2012).
  • [10] R. Burdzik, P. Folęga, B. Łazarz, Z. Stanik, J. Warczek, Analysis of the impact of surface layer parameters on wear intensity of friction pairs. Arch. Metall. Mater. 57, 4, 987-993 (2012).
  • [11] G. Golański, J. Słania, Effect of different heat treatments on microstructure and mechanical properties of the martensitic GX12CrMoVNbN91 cast steel. Archives of Metallurgy and Materials, zeszyt 4, (2012).
  • [12] T. Węgrzyn, J. Piwnik, D. Hadryś, R. Wieszała, Car body welding with micro-jet cooling, Archives of Materials Science and Engineering 49, 1, (2011).
  • [13] K. Lukaszkowicz, A. Kriz, J. Sondor, Structure and adhesion of thin coatings deposited by PVD technology on the X6CrNiMoTi17-12-2 and X40 CrMoV5-1 steel substrates, Archives of Materials Science and Engineering 51, 40-47 (2011).
  • [14] D. Hadryś, M. Miros, Coefficient of restitution of model repaired car body parts; Journal of Achievements in Material and Manufacturing Engineering 28, 1, Ryn, Maj 2008.
  • [15] G. Peruń, B. Łazarz, Modelling of power transmission systems for design optimization and diagnostics of gear in operational conditions. Solid State Phenomena 210, 1012-0394, Mechatronic systems, mechanics and materials II. Selected, peer reviewed papers from the Symposium on Mechatronics Systems, Mechanics and Materials 2013, October 9-10, 2013, Jastrzębia Góra, Poland. Eds: J. Garus, P. Szymak. Stafa-Zurich: Trans Tech Publications, 108-114 (2014).
  • [16] G. Peruń, J. Warczek, R. Burdzik, B. Łazarz, Simulation and laboratory studies on the influence of selected engineering and operational parameters on gear transmission vibroactivity. Key Engineering Materials; vol. 588 1662-9795, Smart diagnostics V. Selected, peer reviewed papers from the 5th International Congress of Technical Diagnostics, Krakow, Poland, September 3-5, 2012. Ed. by T. Uhl. Stafa-Zurich: Trans Tech Publications, 266-275 (2014).
  • [17] P. Folęga, FEM analysis of the options of using composite materials in flexsplines. Archives of Materials Science and Engineering 51, 1, 55-60 (2011).
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-27345bc1-036c-40ea-99e0-e22017edfef9
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