Formation of technological properties and structure of high-speed powder steels and the influence of alloying components on the processes of diffusion and splicing during sintering and hot stamping | Zendy

R. V. Egorova | Zendy; M. S. Egorov | Zendy; A Atrokhov | Zendy; V Ishchenkova | Zendy; Maxim Kovtun | Zendy; D Sarkisian | Zendy; С.Л. Саакян | Zendy

Open Access

Formation of technological properties and structure of high-speed powder steels and the influence of alloying components on the processes of diffusion and splicing during sintering and hot stamping

Author(s) -

R. V. Egorova,

M. S. Egorov,

A Atrokhov,

V Ishchenkova,

Maxim Kovtun,

D Sarkisian,

С.Л. Саакян

Publication year - 2020

Publication title -

iop conference series. materials science and engineering

Language(s) - English

Resource type - Journals

eISSN - 1757-899X

pISSN - 1757-8981

DOI - 10.1088/1757-899x/1001/1/012051

Subject(s) - powder metallurgy , materials science , metallurgy , high speed steel , carbide , sintering , stamping , diffusion , tool steel , physics , thermodynamics

Using powder metallurgy, it is possible to produce more durable and wear-resistant tools made of high-speed steel. Such a tool works more effectively than a carbide tool when processing with impact and removing large allowances. But in certain niches, the tool made of high-speed steel, especially powder steel, which is characterized by greater wear resistance and strength compared to ordinary steel, retained its leadership.

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