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The article is focussed on comparing and determining the impact of the cutting geometry of the cutting tool due to dynamic load on system and microgeometry machined surface. For longitudinal turning nickel alloy Alloy 625 (W. Nr. 2.4856) rounded indexable cutting insert was used (RCMT 10T3M0 – F2) and its equivalent squared indexable cutting insert (SNMG 120412 – MR3) coated with fine-grained PVD (Ti, Al) N + TiN. Experimental testing of nickel Alloy 625 was under predetermined cutting conditions. In the selected depth of the removed material of 0.5 mm and 1.5 mm was measured in the course of machining the size of the individual components of cutting forces.
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Tom
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24--31
Opis fizyczny
Bibliogr. 14 poz., fig., tab.
Twórcy
autor
- Faculty of Mechanical Engineering, VSB-Technical University of Ostrava, 17. Listopadu 2172/15 1, 708 00, Ostrava, Czech Republic
autor
- Faculty of Mechanical Engineering, VSB-Technical University of Ostrava, 17. Listopadu 2172/15 1, 708 00, Ostrava, Czech Republic
autor
- Faculty of Mechanical Engineering, VSB-Technical University of Ostrava, 17. Listopadu 2172/15 1, 708 00, Ostrava, Czech Republic
autor
- Faculty of Mechanical Engineering, VSB-Technical University of Ostrava, 17. Listopadu 2172/15 1, 708 00, Ostrava, Czech Republic
autor
- Faculty of Mechanical Engineering, Lublin University of Technology, Nadbystrzycka 36, 20-618 Lublin, Poland
Bibliografia
- 1. Neslušan M. and Czán A. Obrábanie titánových a niklových zliatin. Žilina, 2001.
- 2. Darecký J. Superzliatiny niklu a ich obrábanie. Žilina, Technical University of Žilina, 2001, 189.
- 3. Čep R., Janásek A., Čepová L., Petrů J., Hlavatý I., Car Z. and Hatala M. Experimental testing of exchangeable cutting inserts cutting ability. Tehnicki Vjesnik-Technical Gazette, 20(1), 2013, 21–26.
- 4. Bradley and Elihu F. Superalloys: A Technical Guide. ASM International, 1989, 280.
- 5. Maurotto A., et al. Comparing machinability of Ti- 15-3-3-3 and Ni-625 alloys in UAT. In 5th CIRP conference on High Performance Cutting, 2012.
- 6. Sandvik Coromant. Příručka obrábění. Praha: Scientia, s.r.o. Praha, 1997, 910.
- 7. Donachie M.J. and Donachie S.J. Superalloys – A Technical Guide, second edition. ASM International, 2002.
- 8. Stȩpień K.S. Testing the accuracy of surface roughness measurements carried out with a portable profilometer. Key Engineering Materials, 637, 2015, 69–73.
- 9. SECO TOOLS CZ, s.r.o. Soustružení, www.secotools.com.
- 10. Venkatesan K., Ramanujam R., Saxena V., Chawdhury N. and Choudhary V. Influence of cutting parameters on dry machining of inconel 625 alloy with coated carbide insert - a statistical approach. In ARPN Journal of Engineering and Applied Sciences, 9(3), 2014, 250–258.
- 11. Petrů J., Zlámal T., Mrkvica I. and Čep R. The effect of thermal shocks on wear of exchangeable sintered carbide inserts during the cutting proces. Manufacturing Technology, 14(4), 2014. 590–596.
- 12. Petrů J., Schiffner J., Zlámal T., Sadílek M. and Stančekova D. Investigation of cutting tool wear while machining inconel 718. Manufacturing Technology, 15(3), 2015, 396–403.
- 13. Duplák J., Hatala M., Botko F. and Kormoš M. Analysis of cutting tools durability importance in turning process of steel C60. In Key Engineering Materials, 669, 2016, 319–326.
- 14. Petrů J., Petřkovská L., Zlámal T. and Mrkvica I. Resistance of sintered carbide materials against heat shocks induced by cutting process. 23rd International Conference on Metallurgy and Materials, 2014, 973–978.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2f6d5c39-13ac-4a94-a1dd-3bdb71d8bdd1