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Tytuł artykułu

The innovative post-weld finishing method and non-standard cutting tool for carrying out this method

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The most common method of post-weld finishing is grinding with an abrasive tool. This finishing method leads to the occurrence of faults on the treated surface: locations missed or hardened twice, structural notches and stretching residual stress in the surface layer. The faults mentioned lead to the creation and development of ordinary as well as fatigue cracks, seizing or other damage. In addition, grinding is a process that often involves manual labour, which significantly increases the time required for finishing the procedure. Moreover, it is impossible to automate this process. Also, grinding is a process that is damaging for both people and the environment. In contrast to grinding and other processes of post-weld surface finishing, the innovative method, which is the subject of this article, does not have the faults and inconveniences of the previously mentioned techniques. The post-weld surface finishing method by moving of the innovative multi-edge cutting tool along the weld bead is presented in this article. In this method, machining allowance is treated as the weld bead height, which is flush-removed with the base material in one step during one pass of the cutting tool. The adjacent teeth height of changing and increasing according to the direction of feed and the difference in height between the first and last teeth are equal to the weld bead height. The number of cutting teeth necessary to flush-finish the weld bead with the base metal surface depends on the difference in the first and last teeth height and how it is divided. The tooth length is greater than half of the distance between the adjacent cutting teeth, which enables finishing the heterogeneous post-weld surface with many defects and increased hardness. The innovative method is characterised by short machining time of the weld bead and provides an accurate, efficient and economical process.
Rocznik
Strony
22--28
Opis fizyczny
Bibliogr. 19 poz., rys., tab.
Twórcy
autor
  • Faculty of Marine Engineering, Department of Engineering Sciences, Gdynia Maritime University, ul. Morska 81-87, 81-225 Gdynia, Poland
Bibliografia
  • 1. Ferenc K, Ferenc J. Welded structures. Connections. Warsaw: Wydawnictwo Naukowe PWN ; 2018: 460 (in Polish).
  • 2. Szal A, Orzech K, Klich J, Szwed W, Kalisz K, Bodynek P. A method for grinding the longitudinal welds of the outer cargos and a device for grinding the longitudinal welds of the outer cargos. Patent No. 166176, dated 03.07.1991 (in Polish).
  • 3. Cyfka D, Subocz K. Milling machine for machining the weld ridge. Patent No. 174051, dated 13.01.1998 (in Polish).
  • 4. Bratt G, Martinsson H, Nordstroem M, Ostgren A. Method and device for machining a joint between two components. Patent No. 327604, dated 20.12.1996 (in Polish).
  • 5. Dworow JI, Orlow WE. Deforming and cutting broach. Publication DE 26 12 323, filing date: March 23, 1976 ( in German).
  • 6. Dvirna O. Cutting tool for post weld surface finishing. Utility model № 146641, 10.03.2021.
  • 7. Dvirna O. Method of post weld surface finishing. Utility model № 146640, 10.03.2021.
  • 8. Kowalczyk L. Physical modelling of metal forming processes. Ra-dom: Publishing House of the Institute of Exploitation Technology; 1995: 371 (in Polish).
  • 9. Dvirna O. Cutting Tool. Patent № 65776, 11.12.2011.
  • 10. Dvirna O. The physical modelling of high speed broaching of the heat-resistant steels for studies surface layer quality. Journal of KONES. 2019; 26(3): 23-29. Available from: https://kones.eu/ep/2019/vol26/no3/23-30_JOK_2019_NO.3_VOL.26_ISSN_1231-4005-DVIRNA.pdf.
  • 11. Dvirna O. Influence of the cutting tool properties on the treatment surface quality in the heat resistant steel broaching. Materials, tech-nologies, constructions: special purpose processes. Stalowa Wola: Oficyna Wydawnicza Politechniki Rzeszowskiej. 2019: 27-38. Availa-ble from: https://www.worldcat.org/title/materials-technologies-constructions-special-purpose-processes/oclc/1150663530&referer=brief_results
  • 12. Górski E, Harasymowicz J. Fundamentals of cutting tool design together with technological issues. Warsaw: Wydawnictwa Naukowe PWN; 1980: 608 ( in Polish).
  • 13. Kunstetter S. Fundamentals of cutting tool design. Warsaw: Wydaw-nictwa Naukowo-Techniczne; 1980: 505 ( in Polish).
  • 14. Gawlik E, Gil S, Zagórski K. Design of technological processes of machining. Cracow: Wydawnictwa AGH; 2019: 318 ( in Polish).
  • 15. Demidov VV, Kireev GI, Smirnov MY. Calculation and design of broaches. Ulyanovsk: Ural State Technical University; 2005: 79 (in Russian).
  • 16. Collection of thematic information materials: Drawing of heat-resistant materials. Edited by Vilkul V.V. Nikolaev: ONTIiZAPP; 2009: 277 (in Ukrainian).
  • 17. Dvirna O, Zembrzuska N. Technological methods of ensuring the reliability of lock connections in marine gas turbines. Journal of KONBiN. 2022; 52 (3): 149-163. Available from: http://www.journal.itwl.pl/images/2022t52v3/09%20Journal-Volume_52_Issue_3_149_164_page.pdf (in Polish)
  • 18. Dvirna O. Multi-tool fixing set for post-weld finishing surfaces, appli-cation of multi-tool fixing set for post-weld finishing surfaces and method of manufacturing multi-tool fixing set for post-weld finishing surfaces. Patent application for invention No. P.443376 dated 30.12.2022 (in Polish)
  • 19. Dvirna O. A method of finishing post-welding surfaces and a tool for implementing this method. Application for Patent for Invention No. P.433166 dated 07.03.2020 (in Polish)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fb1efc49-6391-491d-a262-d9878e06d03c
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