Advertisement

The Contribution of Ion Plasma Sprayed Coating to Performance of Precision Diamond Dressing Tools

  • V. LavrinenkoEmail author
  • M. Sheiko
Chapter
Part of the Springer Tracts in Mechanical Engineering book series (STME)

Abstract

This chapter describes the effect of ion plasma sprayed coating on performance of diamond precision dressing tools under diamond-abrasive machining conditions. The use of thick wear-resistant titanium nitride and carbide coating with a compensating interplayer of plastic metal (cobalt) is demonstrated to be a promising method for improving efficiency of dressing tools manufactured by electroplating and electroforming.

References

  1. 1.
    Vereshchaka AA, Vereshchaka AS, Batako AD, Hoszhaev OH (2015) Development and research of nanostructured multilayer composite coatings for hard alloys with enhanced technological scope of application. In: Mat. XXIII Inter. Tech. Science Sem. High technologies: tendencies of development, NTU KhPI, Kharkov, pp 30–36Google Scholar
  2. 2.
    Kaidalov AA (2001) Plasma treatment of cutting and abrasive tools to improve their wear resistance. Instrument Svit 12:31–33Google Scholar
  3. 3.
    Lavrinenko VI, Novikov MV (ed) Nadtverdi abrasyvni matetially v mekhanoobrobtsi. Entsykloped. Dov. (Superabrasive materials in machining, Encyclopedic handbook). Bakul Institute for Superhard Materials, NAS of Ukraine, KyivGoogle Scholar
  4. 4.
    Boguslayev AV (2000) Characterization and application of thermal spray coating on aircraft engine parts and machinery components. Suchasne Mashinobud 3–4:28–33Google Scholar
  5. 5.
    Rozenberg OA, Tsarenko IV, Tsekhanov YA (1990) On performance of detonation-carbide-coated deformation broaches. In: Povyshenie effektivnosti protyagivaniya (kachestvo obrabotki), Sb. nauchn. tr. (Improving efficiency of broaching (Machining Quality). Collected Research Papers), Riga, pp 92–102Google Scholar
  6. 6.
    Garanin VM, Ivanenko AA, Klimenko SA (1999) Coating application by detonation. New potential in reconditioning of parts. Suchasne Mashinobud 2:96–99Google Scholar
  7. 7.
    Tabakov VP (2007) Mechanisms of hardening of a wear resistant coating material and processes for their implementation. In: Grabchenko AI (ed) Sovremennye tekhnologii v mashinostroenii, Sb. nauchn. satei (Modern processes in machine building. Collected research papers), vol 2, NTU KhPI, Kharkiv, pp 233–247Google Scholar
  8. 8.
    Belous VA (2005) Ion plasma surface treatment of structural materials. Oborud Instrum Profess 12:12–16Google Scholar
  9. 9.
    Akifyev VA, Polunina OV, Solopov AV (2007) Nanostructured droplet-free coatings for extending service life of cutting tools and dies. In: Effectivnost’ realizatsii nauchnogo, resursnogo i promyshlennogo potentsiala v sovremennykh usloviyakh. Materialy VII Promyshl. konf. s mezdunar. uchastiyem (Efficiency of fulfillment of scientific, resource and industrial potential under present-day conditions. Proceeding of VII industrial conference with international attendance), Slavskoye, The Carpathians, UITs NTT, Kiev, pp 349–351, 12–16 Feb 2007Google Scholar
  10. 10.
    Gabler J, Pleger S, Schafer L (2007) CVD diamond layers with a controlled roughness enable high-precition and micro grinding tools. In: 2nd International industrial diamond conference, Rome, Italy, 19–20 Apr 2007. www.diamondat-work.com
  11. 11.
    Zhang Y, Yasuhiro T, Kawahata Y, Kirino O (2015) Proposal of partially Ni-coated diamond abrasives for improving grindabilities of diamond tools. In: The 6th international conference of Asian society for precision engineering and nanotechnology (ASPEN 2015), Harbin, China, 15–20 Aug 2015Google Scholar
  12. 12.
    Kostyuk GI, Kurinnyi AN (2007) A comparison of efficiency of 0.8ZRN + 0.2HFN coating on carbide cutting inserts made by Sandvik Koromant, USSR and Russian companies. In: Grabchenko AI (ed) Sovremennye technologii v mashinostroenii, Sb. nauchn. statei (Modern processes in machine building. Collected research papers), vol 2, NTU KhPI, Kharkiv, pp 304–316Google Scholar
  13. 13.
    Dabizha EV, Novikov NV, Bondar IV et al (2005) Development of modern vacuum coating processes. In: Sintez, specanie i svoistva sverkhtverdykh materialov. Sb. nauchn. tr. (Synthesis, sintering, and properties of superhard materials. Collected research papers), Kiev, ISM NANU, pp 95–107Google Scholar
  14. 14.
    Sheiko MN, Matskevich VP, Nemets VM, Skok VN (2006) Evolution of working surface of diamond sticks in dressing. In: Suchasni proctsesy mekhanichnoi obrobky instrumentamy z NTM ta yakist detalei mashin. Zb. nauk. prats’ (Modern machining processes using tools of superhard materials, and surface quality of engineering components. Collected research papers), Kiev, INM NAN Ukrainy, pp 118–125Google Scholar
  15. 15.
    Sheiko MN, Borodavko DN, Skok VN (2007) Evolution of the working surface of diamond ruling bars at the stage preceding its destruction. Superhard Mater 2:65–72Google Scholar

Copyright information

© Springer Nature Singapore Pte Ltd. 2019

Authors and Affiliations

  1. 1.V. Bakul Institute for Superhard Materials National Academy of Sciences of UkraineKievUkraine

Personalised recommendations