Development of tribo-testers for predicting metal cutting friction

• Autorzy: Grzesik Wit , Rech Joel

Identyfikatory

DOI

10.5604/01.3001.0013.0450

• Języki publikacji: EN

Abstrakty

EN

This paper overviews some frequently used apparatus for determination of friction between the elements of tribo-pairs which represent the cutting tool and the workpiece materials. The three methods which utilize different measuring techniques are outlined and some construction details of tribotesters are presented. The main advantages and disadvantages of the closed and open tribosystems along with their practical applications in machining are highlighted.

Słowa kluczowe

EN

metal cutting; friction; tribometer

• Wydawca: Wydawnictwo Wrocławskiej Rady FSNT NOT
• Czasopismo: Journal of Machine Engineering
• Rocznik: 2019
• Tom: Vol. 19, No. 1
• Strony: 62--70
• Opis fizyczny: Bibliogr. 19 poz., rys.

Twórcy

autor

Grzesik Wit

• Faculty of Mechanical Engineering, Opole University of Technology, Opole, Poland

autor

Rech Joel

• University of Lyon – ENISE, Saint-Etienne, France

Bibliografia

• [1] BEN ABDELALI H., COURBON C., RECH J., BENSALEM W., DOGUI A., KAPSA P.,2011, Identification of a friction model at the tool-chip-workpiece interface in dry machining of a AISI1045 steel with a TiN coated carbide tool, ASME Journal of Tribology, 133, 1–11.
• [2] GRZESIK W.,2016, Advanced machining processes of metallic materials, Elsevier, Amsterdam.
• [3] MELKOTE S., GRZESIK W., et al., 2017, Advances in material and friction data for modelling of metal machining, CIRP Annals – Manufacturing Technology,66/2, 731–754.
• [4] RECH J., ARRAZOLA P.J., CLAUDIN C., COURBON C., PUSAVEC F., KOPAC J., 2013, Characterisation of friction and heat partition coefficients at the tool-workmaterial interface in cutting, CIRP Annals – Manufacturing Technology, 62, 79–82.
• [5] GRZESIK W., ZALISZ Z., NIESŁONY P., 2002, Friction and wear testing of multilayer coatings on carbide substrates for dry machining applications,Surface and Coatings Technology, 155, 37–45.
• [6] GRZESIK W., ZALISZ Z., KRÓL S., NIESŁONY P., 2006, Investigations of friction and wear mechanisms of the PVD-TiAlN coated carbide in dry sliding against steels and cast iron, Wear, 261, 1191–1200.
• [7] HEDENQUIST P., OLSSON M., 1991, Sliding wear testing of coated cutting tool materials, Tribology International, 24, 143–150.
• [8] OLSSON M., SÖDERBERG S., JACOBSSON S., HOGMARK S., 1989, Simulation of cutting tool wear by a modified pin-on-disc test,Int. J. Machine Tool and Manufacture,29, 377–390.
• [9] OZLU E., BUDAK E., MOLINARI A., 2009, Analytical and experimental investigation of rake contact and friction behavior in metal cutting,Int. J. Machine Tool and Manufacture,49, 865–875.
• [10] BOGDAN-CHUDY M., NIESŁONY P., 2015, Assessment of tribological conditions during machining ofthe INCONEL 718 alloy using a carbide insert, Mechanik, 8–9, 91–97, (in Polish).
• [11] NIESŁONY P., GRZESIK W., LASKOWSKI P., ŻAK K., Numerical 3D simulation and experimental analysis of tribological aspects in turning Inconel 718 alloy, Journal of Machine Engineering, 15/1, 47–57.
• [12] GRZESIK W., RECH J., ŻAK K.2014,Determination of friction in metal cutting with tool wear and flank face effects,Wear, 317, 8–16.
• [13]ZEMZEMI F., RECH J., BEN SALEM W., DOGUI A., KAPSA Ph., 2014, Identification of friction and heat partition model at the tool-chip-workpiece interfaces in dry cutting of an Inconel 718 alloy with CBNand coated carbide tools, Advances in Manufacturing Science and Technology, 38, 5–21.
• [14] ZEMZEMI F., RECH J., BENSALEM W., DOGUI A., KAPSA Ph., 2009, Identification of a friction model at tool/chip/workpiece interfaces in dry machining of AIS14142 treated steels, Journal of Materials Processing Technology, 209, 3978–3990.
• [15] RECH J., CLAUDIN C., GRZESIK W., ZALISZ Z., 2008, Characterization of the friction properties of various coatings at the tool-chip-workpiece interfaces in dry machining of AISI 4140 steel,Proc. IMechE, Part J,J. Engineering Tribology,222, 617–627.
• [16] SMOLENICKI D., BOOS J., KUSTER F., ROELOFS H., WYEN C.F., 2014, In-process measurement of friction coefficient in orthogonal cutting,CIRP Annals – Manufacturing Technology, 63/1, 97–100.
• [17] PULS H., KLOCKE F., LUNG D., 2012, A new experimental methodology to analysethe friction behavior at the tool-chip interface in metal cutting, Production Engineering Research Development, DOI 10.1007/s11740-012-0386-6.
• [18] PULS H., KLOCKE F., LUNG D., 2014,Experimental investigation on friction under metal cutting conditions, Wear, 310, 63–71.
• [19] GRZESIK W., 2016, Influence of surface textures produced by finishing operations on their functional properties, Journal of Machine Engineering, 16/1, 15–23.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).