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Weld metal deposit (WMD) was carried out for standard MMA welding process. This welding method is still promising mainly due to the high amount of AF (acicular ferrite) and low amount of MAC (self-tempered martensite, retained austenite, carbide) phases in WMD. That structure corresponds with good impact toughness of welds at low temperature. Separate effect of these elements on the mechanical properties of welds is well known, but the combined effect of these alloy additions has not been analyzed so far. It was decided to check the total influence of nickel with a content between 1% to 3% and molybdenum with content from 0.1% up to 0.5%.
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Tom
Strony
1087--1091
Opis fizyczny
Bibliogr. 16 poz., rys., tab., wykr., wzory
Twórcy
autor
- Silesian University of Technology, Faculty of Transport, 8 Krasińkiego Str., 40-019 Katowice, Poland
autor
- Silesian University of Technology, Faculty of Transport, 8 Krasińkiego Str., 40-019 Katowice, Poland
autor
- WSB University in Poznań, Faculty of WSB University in Chorzów, Scientific Institute of Entrepreneurship and Innovation, Department of Management Engineering, 29 Sportowa Str., 41-506 Chorzów, Poland
autor
- Bialystok University of Technology, Mechanical Faculty, 45c Wiejska Str., 16-351 Białystok, Poland
Bibliografia
- [1] J. Labaj, G. Siwiec, L. Blacha, R. Burdzik, Metalurgija 53 (2), 215-217 (2014).
- [2] A. Lisiecki, Materiali in tehnologije 51 (4), 577-583 (2017), doi:10.17222/mit.2016.106.
- [3] D. Hadryś, Arch. Metall. Mater. 60 (4), 2525-2528 (2015).
- [4] D. Burchart-Korol, Evaluation of environmental impacts in iron-making based on life cycle assessment, 20th Anniversary International Conference on Metallurgy and Materials, Book Group Author(s): Tanger Ltd, Brno, METAL 2011, Pages: 1246-1251.
- [5] T. Węgrzyn, Mathematical Equations of the Influence of Molybdenium and Nitrogen in Welds. Conference of International Society of Offshore and Polar Engineers ISOPE'2002, KitaKyushu, Japan 2002, Copyright by International Society of Offshore and Polar Engineers, vol. IV, ISBN 1-880653-58-3, Cupertino – California - USA 2002, 263-267.
- [6] P. Czech, G. Wojnar, R. Burdzik et al., Journal of Vibroengineering 16 (4), 1619-1639 (2014).
- [7] J. Fernández, S. I llescas, J.M. Guilemany, Effect of microalloying elements on the austenitic grain growth in a low carbon HSLA steel. Materials Letters 61 (11-12), 2389-2392 May 2007.
- [8] T. Węgrzyn, J. Piwnik, Ł. Wszołek, W. Tarasiuk: Shaft wear after surfacing with micro-jet cooling, Archives of Metallurgy and Materials 60, 4, 2625-2630 ( 2015).
- [9] Z. Stanik, Mechatronic Systems, Mechanics And Materials II Book Series: Solid State Phenomena 210, 58-64 (2014).
- [10] W. Tarasiuk, A. I. Gordienko, A. T. Wolocko, J. Piwnik, B. Szczucka-Lasota The tribological properties of laser hardened steel 42CrMo4, Arch. Metall. Mater. 60 (4), 2939-2943 (2015).
- [11] T. Węgrzyn, D. Hadryś, M. Miros, Influence of alloy elements on mechanical properties of WMD, ISSN-1895-3794, Zeszyty Naukowe Wyższej Szkoły Zarządzania Ochroną Pracy w Katowicach 1 (3), 75-84 (2007).
- [12] V. V. Barsukov, W. Tarasiuk, V. M. Shapovalov, B. Krupicz, V. G. Barsukov: Express Evaluation Method of Internal Friction Parameters in Molding Material Briquettes, Journal of Friction and Wear 38 (1), 71-76 (2017).
- [13] P. J. Van der Wolk, Modelling CCT-diagrams of engineering steels using neural networks, Delft University Press (2001).
- [14] A. Lisiecki, Metals, 5 (1), 54-69 (2015), doi:10.3390/met5010054.
- [15] ISO 148-1 Metallic materials-Charpy pendulum impact test-part 1. Test method.
- [16] ASTM A370 Standard Test Methods and Definitions for Mechanical Testing of Steel Products
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d4caeee0-0679-48e5-b4ea-ad1b2acb3332