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The application of a new, innovative, hybrid technology combining hardfacing and nitriding to increase the durability of forging tools

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Języki publikacji
EN
Abstrakty
EN
The article deals with the wear of forging tools used in hot forging processes. The research presented in the work includes analysis of tool life used in a selected industrial hot die forging process. Multiple treatment variants were used to increase wear resistance, including thermo-chemical treatment (nitriding), welding methods (surfacing) and an innovative new hybrid technology combining surfacing and nitriding. First of all, the research focused on determining the impact of the phase structure of the nitrided layers used and the surfacing layer on resistance to destructive factors occurring in the analyzed process. Next, hybrid treated tools combining surfacing and nitriding were also subjected to operational tests. Each of the tools analyzed in this work was operated until it was withdrawn due to excessive wear, and then subjected to comprehensive analysis. The tests of tools after operation included: surface scanning to determine the amount of wear of the analyzed tools after work, microhardness measurement, and microscopic tests. A detailed analysis of changes in the surface layer of tools in selected areas was made using a scanning microscope. The aim of the study was to assess the effectiveness of the hybrid surface treatment process used to increase the wear resistance of the surface layer of tools and thereby improve the durability of the forged tools analyzed. The obtained research results indicate a beneficial effect of using the new technology resulting in 300% increase in the durability of the analyzed tools. The effect of improving durability confirmed by obtained results arises from the use of hybrid layers, which are more resistant to abrasive wear and to cracking due to thermo-mechanical fatigue. Moreover, the study shows that nitriding may have a beneficial influence on improving the lifetime of forging tools, under the condition that the nitrided layer has an α diffusive layer structure, without a larger amount of γ’ and ε nitride precipitates.
Rocznik
Strony
354--366
Opis fizyczny
Bibliogr. 22 poz., rys., wykr.
Twórcy
  • Department of Metal Forming, Welding and Metrology, Wroclaw University of Science and Technology, Lukasiewicza Street 5, Wrocław, Poland
Bibliografia
  • [1] Gronostajski Z, Pater Z, Madej L, et al. Recent development trends in metal forming. Arch Civ Mech Eng. 2019;19(3):898–941.
  • [2] Widomski P, Gronostajski Z. Comprehensive Review of Methods for Increasing the Durability of Hot Forging Tools. Proc Manuf. 2020;47:349–55.
  • [3] Gronostajski Z, Kaszuba M, Hawryluk M, Zwierzchowski M. A review of the degradation mechanisms of the hot forging tools. Arch Civ Mech Eng. 2014;14(4):528–39.
  • [4] Gronostajski Z, Kaszuba M, Polak S, Zwierzchowski M, Niechajowicz A, Hawryluk M. The failure mechanisms of hot forming dies. Mater Sci Eng A. 2016;82:1973–91.
  • [5] Zwierzchowski M. Impact of tool magnetization on changes in the surface layer of forging tools. Arch Metall Mater. 2019;64:317–24.
  • [6] Altan T, Ngaile G. Cold and hot forging: fundamentals and applications. Cleveland: ASM International; 2005.
  • [7] Mrzygłód B, Hawryluk M, Gronostajski Z, et al. Durability analysis of forging tools after different variants of surface treatment using a decision-support system based on artificial neural networks. Arch Civ Mech Eng. 2018;18(4):1079–91.
  • [8] Summerville E, Venkatesan K, Subramanian C. Wear processes in hot forging press tools. Mater Des. 1995;16(5):289–94.
  • [9] Gronostajski Z, Kaszuba M, Widomski P, Smolik J, Ziemba J, Hawryluk M. Analysis of wear mechanisms of hot forging tools protected with hybrid layers performed by nitriding and PVD coatings deposition. Wear. 2019;420–421:269–80.
  • [10] Deshpande M, Altan T. Selection of Die Materials and Surface Treatments for Increasing Die Life in Hot and Warm Forging. https://www.forging.org/uploaded/content/media/Altan_paper_Die_materials_and_surface_treatments6.pdf.
  • [11] Gronostajski Z, Widomski P, Kaszuba M, et al. Influence of the phase structure of nitrides and properties of nitrided layers on the durability of tools applied in hot forging processes. J Manuf Process. 2020;52:247–62.
  • [12] Małdziński L. Termodynamiczne, Kinetyczne i Technologiczne Aspekty Wytwarzania Warstwy Azotowanej Na Żelazie i Stalach w Procesach Azotowania Gazowego. Poznań: Wydawnictwo Politechniki Poznańskiej; 2002.
  • [13] Klimpel A. Napawanie i Natryskiwanie Cieplne. WNT; 2000.
  • [14] Lazić V, Arsić D, Nikolić R, et al. Reparation of damaged forging dies by hard facing (HF) technology. Prod Eng Arch. 2015;6:26–9.
  • [15] Gavalas E, Rossbach A, Feuerhack A. Performance analysis of laser-treated hot forging dies with WC-Co-Cr. Int J Adv Manuf Technol. 2020;106(3–4):1327–36.
  • [16] Widomski P, Gronostajski Z, Kaszuba M, Kowalska J, Pawełczyk M. The laboratory tests of hybrid layers combining hardfacing and nitriding dedicated to increase the durability of forging tools in hot forging processes. Weld Technol Rev. 2019. https ://doi.org/10.26628 /wtr.v91i2 .1020.
  • [17] Kaszuba M, Widomski P, Białucki P, Lange A, Boryczko B. Laboratory tests of properties of the new-generation hybrid layers combining hardfacing and nitriding dedicated for improvement of forging tools’ durability. Arch Civ Mech Eng. 2020;20:78.
  • [18] Gronostajski Z, Widomski P, Kaszuba M, Zwierzchowski M, Hawryluk M. Influence of both hardfaced and nitrided layers on the durability of hot forging tools. Surf Innov. 2018;6(4–5):301–10.
  • [19] Gronostajski Z, Kaszuba M, Widomski P (2019) Sposób poprawy trwałości narzędzia kuźniczego przez modyfikację jego warstwy wierzchniej.
  • [20] Lehrer E. Über das Eisen-Wasserstoff-Amoniak-Gleichgewicht. Zeit-schrift fur Elektrochemie. 1930;6(36):383–92.
  • [21] Kowalska J. Symulator kinetyki wzrostu warstwy azotowanej – narzędzie wspomagające projektowanie procesów azotowania. Autobusy. 2016;12:1075–81.
  • [22] Małdziński L., Ostrowska K., Okonowicz P., Hofman A., Kowalska J. Industrial gas consumption and emission in controlled gas nitriding using the ZeroFlow process and other established processes. Piece Przemysłowe & Kotły I-II/2014.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-20c072c7-ba57-418e-90f3-1d7520641f9c
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