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Philadelphia, USA |
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* Scientific Article * Impact Factor 6.630 |
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Akhmedov, K. I., Isaev, D. T., Ashurov, K. K., & Salimjonov, K.
Influence of integrated machining on the cutting capacity of fast-cutting steel R6M5. |
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Full Article: PDF
Scientific Object Identifier: http://s-o-i.org/1.1/TAS-09-89-39
DOI: https://dx.doi.org/10.15863/TAS.2020.09.89.39
Language: Russian
Citation: Akhmedov, K. I., Isaev, D. T., Ashurov, K. K., & Salimjonov, K. (2020). Influence of integrated machining on the cutting capacity of fast-cutting steel R6M5. ISJ Theoretical & Applied Science, 09 (89), 322-327. Soi: http://s-o-i.org/1.1/TAS-09-89-39 Doi: https://dx.doi.org/10.15863/TAS.2020.09.89.39 |
Pages: 322-327
Published: 30.09.2020
Abstract: At present, high-speed steels, which combine high strength, hardness, wear resistance and sufficiently high plasticity, are a universal material for the manufacture of metal-cutting tools. The production of high-speed steel in 1900 made a revolution in mechanical engineering: the productivity of mechanical processing of parts increased sharply (by 8-10 times), powerful and high-speed metal-cutting machines appeared, and the automation of industrial production began. High-speed steel and the method of its hardening have been known for over 100 years, and it should be noted that during this time no material has been found that can replace it. Tool materials such as cemented carbides, superhard materials and cermet composites have limited applications and cannot compete with high speed steels in the mass production of metal working tools.
Key words: wear, tool, temperature, blades, material, nitriding.
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