Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Purpose: Cermets have very good plasticity and high hardness. Functionally graded cermets secure obtaining of cutting tools with hard wear resistance surface layer and ductile body frame. A new FGM was obtained using P/M method. Design/methodology/approach: Materials were obtained using free sintering at vacuum and the high temperature-high pressure sintering method. Functionally graded cermets have more amount of hard phase in the surface layer and lower participation of this phase in the body frame. FGMs were prepared by the layers pressing method and the centrifugal deposition method. Findings: Material with 55 wt.% of TiC and 45 wt.% of (Ni,Mo) was prepared. The phase’s composition of this material was analysed. The ring structure of material and complex carbides formation was confirmed. The gradient of the phase composition and hardness measurement are presented. Phase composition of FGM strongly depend on conditions of centrifugal sedimentation process: duration, rotation speed, solid content, dispersive liquids. The centrifugal deposition process of powders forming guarantees gradient phase composition for materials obtaining the powder metallurgy methods. The FGM obtained by powders forming method should be sintered using pressure processes in a closed containers (or special assembly) because of materials high porosity which is a result of various chemical contents of this same material parts. Practical implications: Due to their low chemical affinity to steel and the resistance for high temperatures oxidation, cermets have better cutting properties than carbides. Application of cermet inserts guarantees the high quality of machined surface (low roughness). Cermets could be used in “dry cutting” processes. Originality/value: The centrifugal deposition method for powders with phases content gradient forming is original value.
Wydawca
Rocznik
Tom
Strony
73--76
Opis fizyczny
Bibliogr. 15 poz., rys., tab., wykr.
Twórcy
autor
- Materials Engineering Department, Institute of Advanced Manufacturing Technology, ul. Wroclawska 37a, 30-224 Krakow, Poland
- Pedagogical University of Cracow, Institute of Technology, ul. Podchorazych 2, 30-084 Krakow, Poland
autor
- Materials Engineering Department, Institute of Advanced Manufacturing Technology, ul. Wroclawska 37a, 30-224 Krakow, Poland
autor
- Materials Engineering Department, Institute of Advanced Manufacturing Technology, ul. Wroclawska 37a, 30-224 Krakow, Poland
autor
- Pedagogical University of Cracow, Institute of Technology, ul. Podchorazych 2, 30-084 Krakow, Poland
Bibliografia
- [1] W.W. Gruss, K.M. Friederich, Ceramic Cutting Tools, First Edition, Noyes Publications, New Jersey, 1995.
- [2] L.A. Dobrzański, Material science principles and metallography, WNT, Warsaw, 2002, (in Polish).
- [3] L. Jaworska, B. Smuk, D. Królicka, J. Wszołek, Cermets for cutting edges, Kompozyty 3 (2005) 21-25, (in Polish).
- [4] I. Hussainova, Effect of microstructure on the erosive wear of titanium carbide-based cermets, Wear 255 (2003) 121-128.
- [5] K.J.A. Brookes, Update on cermets, ceramics and superhards, Mettalworking Production 8 (1989) 63-74.
- [6] R. Stricker, Das potential der cermets, Technische Rundschau 85 (1993) 13.
- [7] A. Umansky, A. Panasyuk, L. Beloborodov, V. Smirnov, N. Sereda, Study of structure and phase-formation in (TiC-Mo2C)-(Ni-Mo) composite materials, Proceedings of the 9th - World Ceramic Congress and Forum on New Materials CIMTEC, Florence, 1999, Part C, 723-728.
- [8] M. Rosso, Ceramic and metal matrix composite, route and properties, Proceedings of the 12th Scientific International Conference “Achievements in Mechanical and Materials Engineering” AMME’2003, Gliwice-Zakopane, 2003, XXXV-I.
- [9] P. Ettamayer, H. Kolaska, W. Lengauer, Metallurgy and Properties, International Journal Refractory Metals and Hard Materials 13 (1995) 343-351.
- [10] M. Koizumi, The Concept of FGM”, FGM-News, Journal of the FGM-Forum, National Aerospace Laboratory, Nippon Oil Company 24 (1994) 3-6.
- [11] A. Kawasaki, R. Watanabe, Concept and P/M Fabrication of Functionally Gradient Materials, Ceramics International 23 (1997) 73-83.
- [12] R. Borchert, M. Willert-Porada, An oxidation resistant metal-ceramic functionally graded material, Proceedings of the 9th - World Ceramic Congress and Forum on New Materials CIMTEC, Florence, 1999, Part C, 313-320.
- [13] K. Tsuda, et al., Technical Report „Sumitomodenki“, 147 (1995) 71.
- [14] Y. Miyamoto, Applications of Functionally Graded Materials, Proceedings of the 9th - World Ceramic Congress and Forum on New Materials CIMTEC, Florence, 1999, Part C, 287-298.
- [15] H.Y. Suzuki, K. Shinozaki, S. Tashima, H. Kuroki, Effect of high centrifugal force on the properties of green compacts made by high-speed centrifugal compaction process, Proceedings of the 2000 Powder Metallurgy World Congress, Kyoto, 2000, Part 1, 582-585.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b7c3a2ec-760b-4569-a865-ba94d19065d0