Research and analysis of stress distribution in multilayers of coated tools
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Zuzana Murčinková
Abstract
The paper analyses stress distribution in mono/multi-layers of coated tools. It presents an analysis performed on mono-layer, double-layer and multi-layer coatings using numerical models to detect the developed stress distribution and the most stressed zones in these mostly 1–10 micron layers. With such thin layers, experimental detection of stress distribution would be very difficult. Moreover, coating thickness is distributed differently on flat surfaces from on shaped features in coated tools. This non-uniform coating results solely from the technology applied and such uneven deposition of the coating is critical in terms of how the tools themselves function. The paper provides an analysis of stresses in thinner or accumulated layers of coating on the rounded edge, for example in cutting. This analysis was initiated by ProTech Coating Service, Ltd., which manufactures physical vapour deposition coatings for cutting and forming tools.
References
[1] R.Jančovič: Durability of coated cutting tools, Faculty of materials science and technology in Trnava, Institute of Manufacturing Technologies (2010) 122.Search in Google Scholar
[2] K.D.Bouzakis, N.Michailidis, G.Skordaris, E.Bouzakis, D.Biermann, R.M’Saoubi: CIRP Annals–Manuf. Technol.61 (2012) 703–723. 10.1016/j.cirp.2012.05.006Search in Google Scholar
[3] J.Jurko, T.G.Mathia: Environmental aspects of progressive of the metal machining. Ecology of Manufacturing, SI., ISRE (2015) 21–25.Search in Google Scholar
[4] N.Narutaki, Y.Yarmane, S.Tashima, H.Kuroki: CIRP Annals46 (1997) 43–48. 10.1016/S0007-8506(07)60772-0Search in Google Scholar
[5] A.Panda, M.Prislupčák: Studia i materialy34, no. 1 (2014) 13–16.Search in Google Scholar
[6] P.Twardowski, S.Legutko, G.M.Krolczyk, S.Hloch: Adv. Mech. Eng.7 (2015) 1–9. 10.1177/1687814015590216Search in Google Scholar
[7] K.H.Buschow, R.W.Cahn, M.C.Flemings, B.Ilschner, E.J.Kramer, S.Mahajan, P.Veyssiere: Chemical Vapor Deposition, Encyclopedia of materials, Science and Technology, Vol. 2, UK (2001). 10.1016/B0-08-043152-6/00016-4Search in Google Scholar
[8] M.Gucwa, J.Winczek, R.Bęczkowski, M.Dośpiał: Arch. Foundry Eng.16 (2016) 39–42. 10.1515/afe-2016-0046Search in Google Scholar
[9] P.Michalik, J.Zajac, M.Hatala, D.Mital’, V.Fečová: Measurement58 (2014) 416–428. 10.1016/j.measurement.2014.09.008Search in Google Scholar
[10] T.Cselle: LARC: Neue, industrielle Beschichtungstechnologie, Werkstatt und Betrieb, Vol. 3 (2003) 12–17.Search in Google Scholar
[11] P.J.Arrazola, T.Özel, D.Umbrello, M.Davies, I.S.Jawahir: CIRP Annals–Manuf. Technol.62 (2013) 695–718. 10.1016/j.cirp.2013.05.006Search in Google Scholar
[12] A.Humár: Materials for cutting tools, MM publishing, Prague, Czech Republic (2008).Search in Google Scholar
[13] A.S.Vereshchaka: Cutting performance with wear-resistant coating, Mašinostrojenije, Moscow, Russia (1993).Search in Google Scholar
[14] K.Vasilko: Theory and practice of chip machining, Technical University of Kosice, Presov, Slovakia (2009).Search in Google Scholar
[15] F.Holešovský, M.Novák: Manuf. Eng.2 (2010) 17–21.Search in Google Scholar
[16] S.Bhowmick, V.Jayaram, S.K.Biswas: Acta Mater.53 (2005) 2459–2467. 10.1016/j.actamat.2005.02.008Search in Google Scholar
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Articles in the same Issue
- Contents
- Contents
- Original Contributions
- The thermodynamic stability induced by solute co-segregation in nanocrystalline ternary alloys
- A general approach on the modelling of incubation in ferrite transformation using non-isothermal kinetics data for 22MnB5 steel
- Effect of aging on microstructure and mechanical properties of ZnAl15Cu1 alloy for wrought applications
- Deformation behavior and texture randomization of Mg–Zn–Gd alloys reinforced with icosahedral quasicrystal
- Atomic mobility in liquid and fcc Al–Si–Mg–RE (RE = Ce, Sc) alloys and its application to the simulation of solidification processes in RE-containing A357 alloys
- Reactive wetting of Ti-6Al-4V alloy by molten Al 4043 and 6061 alloys at 600–700°C
- Laser surface treatment of S235JRC carbon steel with Co2B nanocrystals
- Research and analysis of stress distribution in multilayers of coated tools
- Observations of freeze layer formation during heat balance shifts in cryolite-based smelting bath
- Synthesis and thermo-mechanical investigation of macrodiol-based shape memory polyurethane elastomers
- DGM News
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