Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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23 | 11 | 2024
2020, 01 January

DOI: 10.14489/td.2020.01.pp.020-029

 

Mokritsky B. Ya., Savin D. A., Konyukhova Ya. V., Shakirova O. G., Sukhorukov S.I.
RESEARCH OF WEIGHT AND DIMENSIONAL PARAMETERS OF METAL-CUTTING CARBIDE PLATES FOR JUSTIFICATION OF IMPROVEMENT OF THEIR QUALITY
(pp. 20-29)

Abstract. The result of the technological process of mechanical blade processing of blanks of General machine-building parts is largely determined by the properties and parameters of the metal-cutting tool used. The paper considers the influence of deviations from the nominal value of such parameters as weight and dimensions of replaceable carbide cutting plates on this result. The purpose of the work is to draw conclusions about their suitability in the operating conditions of a typical machine-building enterprise based on the results of monitoring the parameters of the plates. The parameters of plates of different 15 series of carbide plates are investigated. The technique of separation of plates on conditional grades of quality is formed. The ratio of suitable and defective plates is shown, proposals for the fields of application of suitable plates depending on their grade are formulated.

Keywords: weight and dimensions of the carbide insert, separation of plates by quality grades, applications of plates.

 

 B. Yа. Mokritsky, D. A. Savin, Yа. V. Konyukhova, O. G. Shakirova, S. I. Sukhorukov (Komsomolsk-na-Amure State Technical University, Komsomolsk-na-Amure, Russia)

 

 

1. Replaceable polyhedral carbide inserts. (2006). Technical conditions (with Changes No. 1 - 6): interstate standard. Ru Standard No. GOST 19086–80. Moscow: Standartinfrom. [in Russian language]
2. Replaceable multi-faceted cutting carbide square carbide inserts. (2006). Design and dimensions (with Changes No. 1, 2): interstate standard. Ru Standard No. GOST 19049–80. Moscow: Standartinfrom. [in Russian language]
3. Replaceable multi-faceted cutting carbide square carbide inserts with a hole. (2006). Design and dimensions (with Changes No. 1 and 2): interstate standard. Ru Standard No. GOST 19051–80. Moscow: Standartinfrom. [in Russian language]
4. Replaceable multi-faceted cutting carbide square carbide inserts. (2006). Design and dimensions (with Changes No. 1 and 2): interstate standard. Ru Standard No. GOST 19085–80. Moscow: Standartinfrom. [in Russian language]
5. Replaceable multi-faceted cutting carbide square carbide inserts with a rear angle of 11. (2006). Design and dimensions (with Changes No. 1, 2 and 3): interstate standard. Ru Standard No. GOST 19050–80. Moscow: Standartinfrom. [in Russian language]
6. Replaceable multi-faceted cutting carbide square carbide inserts. (2006). Design and dimensions (with Changes No. 1, 2 and 3): interstate standard. Ru Standard No. GOST 24248–80. Moscow: Standartinfrom. [in Russian language]
7. Interchangeable multi-faceted cutting carbide carbide rhombic inserts with an angle of 55, with hole and chipbreaking grooves on two sides. (2006). Design and dimensions (with Changes No. 1, 2 and 3): interstate standard. Ru Standard No. GOST 24257–80. Moscow: Standartinfrom. [in Russian language]
8. Replaceable multifaceted carbide square cutting inserts with a rear angle of 20. (2006). Design and dimensions (with Changes No. 1, 2 and 3): interstate standard. Ru Standard No. GOST 24253–80. Moscow: Standartinfrom. [in Russian language]
9. Chipbreakers replaceable multi-faceted carbide square. (2006). Design and dimensions: Interstate standard. Ru Standard No. GOST 19085–80. Moscow: Standartinfrom. [in Russian language]
10. Replaceable cutting inserts multifaceted carbide pentagonal. (2006). Design and dimensions (with Changes No. 1): Interstate Standard. Ru Standard No. GOST 19063–80. Moscow: Standartinfrom. [in Russian language]
11. Replaceable multi-faceted cutting carbide square carbide inserts with a hole and chip breaking grooves on one side. (2006). Design and dimensions (with Changes No. 1, 2 and 3): interstate standard. Ru Standard No. GOST 19052–80. Moscow: Standartinfrom. [in Russian language]
12. Replaceable multi-faceted carbide cutting inserts with a pentagonal shape with a hole and chip-breaking grooves on one side. (2006). Design and dimensions (with Changes No. 1 and 2): interstate standard. Ru Standard No. GOST 19065–80. Moscow: Standartinfrom. [in Russian language]
13. Replaceable multi-faceted cutting carbide carbide hexagonal inserts with a rear angle of 80, with hole and chipbreaking grooves. (2006). Design and dimensions (with Amendments No. 1 and 2): interstate standard. Ru Standard No. GOST 19048–80. Moscow: Standartinfrom. [in Russian language]
14. Vereschaka A., Mokritskii B., Mokritskaya E. et al. (2017). Two-component end mills with multilayer composite nano-structured coatings as a viable alternative to monolithic carbide end mills. Mechanics & Industry, Vol. 18. Available at: https://doi.org/10.1051/meca/2017052. (Available online at www.mechanics-industry.org.)
15. Mokritsii B. Ja., Morozova F. V., Usova T. J. (2017). Results in composite hard-allow and milts design basset on simulation of their operation conditions. International conference on industrial engineering (ISIE): International conference in Industrial Engineering (ICIE 2017). Saint Petersburg. Series of books: Procedia Engineering, Vol. 206, pp. 1093 – 1098.
16. Vereschaka A., Oganyan M., Bublikov Yu. et al. (2018). Increase in Efficiency of the Milling of titanium alloys die to tools with multilayered composite nano-structured Zr–ZrN–(Zr,Al)N and Zr–ZrN–(Zr,Cr,Al)N coatings. Coating, (8). DOI:10.3390/coatings8110395.
17. Chirkov A. P. (2013). The role of metrological support in innovation. Glavniy metrolog, (1), pp. 20 – 24. [in Russian language]
18. Chirkov A. P., Alisov A. A. et al. (2013). Infrastructure support for the implementation of high technology. Socio-economic aspects of technological modernization of modern engineering, pp. 78 – 120. Moscow: ID «Spektr». [in Russian language]
19. Chirkov A. P. (2013). Quantitative assessment of the impact of metrology on the economy. Spravochnik. Inzhenerniy zhurnal, (8), pp. 45 – 51. [in Russian language]
20. Matveev V. I. (2019). Accurate measurements are the foundation of quality and safety 2019. Kontrol'. Diagnostika, (8). [in Russian language] DOI: 10.14489/td.2019.08. pp. 004-011.

 

 

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