Refractories and Industrial Ceramics

, Volume 59, Issue 5, pp 558–563 | Cite as

Design of the Ceramic-Bladed End Milling Cutters with Regard for Their Stress-Strain State for the Innovation Technological Processes. Choice of Ceramics. Part 1

  • V. V. KuzinEmail author
  • S. N. Grigor’ev
  • M. A. Volosova

We show the applicability of the method of designing ceramic tools based on the analysis of their stress-strain state in the choice of ceramics used for the creation of ceramic end milling cutters. We present the relationship between the properties of Al2O3 and Si3N4 ceramics and temperature, displacements, and stresses formed in the cutting edge of the ceramics cutter under the conditions of nonstationary thermoelasticity.


design ceramic end milling cutter Al2O3-ceramics Si3N4-ceramics heat flux crooked space surfaces (CSS) nonstationary thermoelasticity 


The present work was supported by the Grant of the Russian Scientific Foundation (Project No. 18-19-00599).


  1. 1.
    Yu. V. Maksimov, A. R. Abramova, D. L. Kuz’minskii, et al., “On the problem of guaranteeing the quality of processing of workpieces with complex shapes on lathes with variable elements,” Izv. MGTU MAMI, 2(1), 168 – 174 (2012).Google Scholar
  2. 2.
    V. M. Makarov, “Multicoordinate or multisurface processing of metals,” Ritm, No. 52, 32 – 35 (2010).Google Scholar
  3. 3.
    S. V. Lukina and I. V. Manaenkov, “Improvement of the efficiency of the multicoordinate milling of spatially complex surfaces on CNC machines,” Izv. MGTU MAMI, 2, No. 2, 8 – 129 (2012).Google Scholar
  4. 4.
    A. S. Vereshchaka, V. N. Anikin, and V. V. Kuzin, “Elevation of the productivity of monolithic hard-alloyed tools by the application of coatings,” in: New Structures and Promising Technologies of Production of Tools [in Russian], Kharkov Polytekh. Institute, Kharkov (1984), pp. 306 – 310.Google Scholar
  5. 5.
    V. V. Kuzin, “Study of high-speed cutting with ceramic tools,” Russian Engineer. Research, 24(3), 40 – 46 (2004).Google Scholar
  6. 6.
    V. P. Zhed’, G. V. Borovskii, Ya. A. Muzykant, et al., Cutting Tools Equipped with Superhard and Ceramic Materials and Their Application [in Russian], Mashinostroenie, Moscow (1987), 320 pp.Google Scholar
  7. 7.
    V. V. Kuzin, S. I. Dos’ko, V. F. Popov, et al., “Tooling for highspeed cutting,” Russian Engineer. Research, 25(9), 20 – 25 (2005).Google Scholar
  8. 8.
    M. Sajgalik, A. Czan, M. Drbul, et al., “Identification of technological parameters when machining Ni-alloys by monolithic ceramic milling tool,” Proced. Manufact., 14, 51 – 57 (2017).CrossRefGoogle Scholar
  9. 9.
    V. V. Kuzin, “A methodological approach to the improvement of the workability of ceramic tools,” Vestn. Mashinostr., No. 9, 87 – 88 (2006).Google Scholar
  10. 10.
    S. N. Grigoriev and V. V. Kuzin, “Prospects for tools with ceramic cutting plates in modern metal working,” Glass and Ceramics, 68(7/8), 253 – 257 (2011).CrossRefGoogle Scholar
  11. 11.
    GOST 1837273. Hard-Alloy End Milling Cutters. Specifications.Google Scholar
  12. 12.
    V. Kuzin, S. Grigoriev, and M. Fedorov, “Applications of multilevel method of stress-strain state analysis in ceramic tools design,” Appl. Mech. Mater., 827, 173 – 176 (2016).CrossRefGoogle Scholar
  13. 13.
    V. V. Kuzin and V. I. Myachenkov, “Stress–strain state of ceramic cutting plate,” Russian Engineer. Research, 31(10), 994 – 1000 (2011).CrossRefGoogle Scholar
  14. 14.
    V. V. Kuzin, “Microstructural model of ceramic cutting plate,” Russian Engineer. Research, 31(5), 479 – 483 (2011).CrossRefGoogle Scholar
  15. 15.
    S. N. Grigor’ev, V. I. Myachenkov, and V. V. Kuzin, “Automated thermal-strength calculations of ceramic cutting plates,” Russian Engineer. Research, 31(11), 1060 – 1066 (2011).CrossRefGoogle Scholar
  16. 16.
    V. V. Kuzin, Tools with Ceramic Cutting Plates [in Russian], Yanus-K, Moscow (2006).Google Scholar
  17. 17.
    V. Kuzin and S. Grigoriev, “Method of investigation of the stress-strain state of surface layer of machine elements from a sintered nonuniform material,” Appl. Mech. Mater., 486, 32 – 35 (2014).CrossRefGoogle Scholar
  18. 18.
    V. V. Kuzin, S. N. Grigor’ev, and M. A. Volosova, “Effect of a TiC coating on the stress-strain state of a plate of a high-density nitride ceramics under nonsteady thermoelastic conditions,” Refractories and Industrial Ceramics, 54(5), 376 – 380 (2014).CrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media, LLC, part of Springer Nature 2019

Authors and Affiliations

  • V. V. Kuzin
    • 1
    Email author
  • S. N. Grigor’ev
    • 1
  • M. A. Volosova
    • 1
  1. 1.“STANKIN” Moscow State Technological UniversityMoscowRussia

Personalised recommendations