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Influence of the ion implantation of nitrogen and selected metals on the lifetime of WC-Co indexable knives during MDF machining. The paper presents the results of durability tests for WC-Co indexable knives during the machining of MDF. The knives were implanted with nitrogen, zirconium, molybdenum and tin, using MEVVA type implanter with non-mass separated beam. Additionally, the Monte Carlo simulation results of the main parameters of the depth profiles of the implanted elements are presented in this paper. A higher correlation of tool life with the project range and range straggling than with the parameter of the peak volume dopant concentration was demonstrated.
Wpływ implantacji jonów azotu i jonów wybranych metali na trwałość wymiennych noży WC-Co podczas obróbki płyt MDF. W artykule przedstawiono wyniki testów trwałościowych wymiennych noży WC-Co podczas obróbki płyt MDF. Noże były implantowane jonami azotu, cyrkonu, molibdenu i cyny, przy użyciu implantatora typu MEVVA bez separacji masowej. Ponadto, w artykule zamieszczono wyniki modelowania profili głębokościowych implantowanych pierwiastków, uzyskanych przy pomocy programu opartego o metodę Monte Carlo. Wykazano wyższe zależności korelacyjne trwałości ostrza z wartościami zasięgu rzutowanego i rozrzutu zasięgu niż z wartościami maksymalnej koncentracji objętościowej domieszki.
Słowa kluczowe
Rocznik
Tom
Strony
45--52
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
Twórcy
autor
- Plasma and Ion Technology Division (FM2), National Centre for Nuclear Research Świerk – NCBJ
autor
- Department of Mechanical Processing of Wood, Warsaw University of Life Sciences - SGGW
autor
- Department of Mechanical Processing of Wood, Warsaw University of Life Sciences - SGGW
autor
- Department of Mechanical Processing of Wood, Warsaw University of Life Sciences - SGGW
autor
- Department of Mechanical Processing of Wood, Warsaw University of Life Sciences - SGGW
autor
- Plasma/Ion Beam Technology Division (FM2), National Centre for Nuclear Research Świerk - NCBJ
autor
- Plasma/Ion Beam Technology Division (FM2), National Centre for Nuclear Research Świerk - NCBJ
autor
- Plasma/Ion Beam Technology Division (FM2), National Centre for Nuclear Research Świerk - NCBJ
Bibliografia
- 1. BARLAK M., WILKOWSKI J., WERNER Z., 2016: Ion implantation changes oftribological and corrosion resistance properties of materials used in wood industry,Annals of Warsaw University of Life Science - SGGW, Forestry and Wood Technology94, 19-27.
- 2. BARLAK M., WILKOWSKI J., BORUSZEWSKI P., WERNER Z., PAŁUBICKI B.,2017: Changes of functional properties of materials used in wood industry after ionimplantation processes, Annals of Warsaw University of Life Science - SGGW, Forestryand Wood Technology 97, 133-139.
- 3. BONNY K., DE BAETS P., PEREZ Y., VLEUGELS J., LAUWERS B., 2010: Frictionand wear characteristics of WC-Co cemented carbides in dry reciprocating slidingcontact, Wear 268, 1504-1517.
- 4. BUGAEV S.P., NIKOLAEV A.G., OKS E.M., SCHANIN P.M., YUSHKOV G.YU.,1994: The “TITAN” ion source, Review of Scientific Instruments 65, 3119-3125.
- 5. CHOI S.-H., KANG S.-D., KWON Y.S., LIM S.G., CHO K.K., AHN I.-S., 2010: Theeffect of sintering conditions on the properties of WC-10wt%Co PIM compacts,Research on Chemical Intermediates 36, 743-748.
- 6. CLEMENTI E., RAIMONDI D.L., REINHARDT W.P., 1967: Atomic screeningconstants from SCF functions. II. Atoms with 37 to 86 electrons, The Journal ofChemical Physics 47, 1300-1307.
- 7. FEYZULLAHOĞLU E., ZEREN A., ZEREN M., 2008: Tribological behaviour of tinbasedmaterials and brass in oil lubricated conditions, Materials and Design 29, 714-720.
- 8. KAMIŃSKI M., BUDZYŃSKI P., 2016: Tribological properties of Stellite 6 cobaltalloy implanted with nitrogen ions determined in the tests conducted in engine fuelatmosphere, Advances in Science and Technology. Research Journal 11, 215-219.
- 9. KHUN N.W., YU H., CHONG Z.Z., TIAN P., TIAN Y., TOR S.B., LIU E., 2016:Mechanical and tribological properties of Zr-based bulk metallic glass for sportsapplications, Materials and Design 92, 667-673.
- 10. KRIVONOSIENKO A.W., NIKOLAEV A.G., LI S., 2001: Технические описание иинструкция по эксплуатаци ионного источника “Титан-3” (Technical descriptionsand operating instructions of the ion source “Titan-3”), Российская Академия Наук -Институт Сильноточной Электроники, Tomsk, in Russian.
- 11. MILMAN. YU.V., CHUGUNOVA S., GONCHARUCK V., LUYCKX S.,NORTHROP I.T., 1997: Low and high temperature hardness of WC-6 wt% Co alloys.International Journal of Refractory Metals and Hard Materials 15, 97-101.
- 12. OLOVSJÖ S., JOHANSON R., FALSAFI F., BEXELL U., OLSSON M., 2013:Surface failure and wear of cemented carbide rock drill buttons - The importance ofsample preparation and optimized microscopy settings, Wear 302, 1546-1554.
- 13. PIRSO J., LETUNOVITŠ S., VILJUS M., 2004: Friction and wear behaviour ofcemented carbides, Wear 257, 257-265.
- 14. SHEIKH-AHMAD J.Y., BAILEY J.A., 1999: High-temperature wear of cementedtungsten carbide tools while machining particleboard and fiberboard. Journal of WoodScience 45, 445-455.
- 15. SRIM. Interactions of ions with matter, http://www.srim.org/.
- 16. SUN J.S., YAN P., SUN X.B., LU G., LIU F., YE W., YANG J.Q., 1997: Tribologicalproperties of nitrogen ion implanted WC-Co, Wear 213, 131-134.
- 17. WU H., ZHU S., CHENG J., QIAO Z., YANG J., 2016: Tribological Behavior of Tin-Based Babbitt Alloy Lubricated by Seawater, Tribology Transactions 59, 838-844.
- 18. TAKEICHI Y., CHUJO T., OKAMOTO N., UEMURA M., 2009: Effects ofmolybdenum trioxide on the tribological properties of aluminium bronze under hightemperature conditions, Tribology online 4, 135-139
Typ dokumentu
Bibliografia
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