Modeling the structure formation during hot deforming the billets of the parts of gas-turbine engines made of heat-resistant nickel alloy


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The results of finite-element and physical modeling of deformation heating and structure formation during high-temperature isothermal upset of a cylindrical billet according to various modes (continuous and fractional deformation) have been presented. The results of numerical modeling, which agree with the experimental modeling data, showed that, in order to minimize the deformation heating and formation of a homogeneous ultrafine-grain structure in bulk billets made of heat-resistant alloys, it is purposeful to perform the deformation fractionally (with a single degree no larger than 30–50%), which allows for the deformation rate and performance of post-deformation annealing. The formation of an ultrafine-grain structure in the billets made of nickel alloys (for example, EP742U) guarantees an increase in the quality of ready wares.

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I. Burlakov

AO Salut Research and Production Center of Gas-Turbine Manufacture

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Email: info@imash.ru
俄罗斯联邦, Moscow

V. Valitov

Institute of Metal Superplasticity Problems

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俄罗斯联邦, Ufa

A. Ganeev

Institute of Metal Superplasticity Problems

Email: info@imash.ru
俄罗斯联邦, Ufa

D. Zabel’yan

AO Salut Research and Production Center of Gas-Turbine Manufacture

Email: info@imash.ru
俄罗斯联邦, Moscow

S. Morozov

AO Salut Research and Production Center of Gas-Turbine Manufacture

Email: info@imash.ru
俄罗斯联邦, Moscow

R. Sukhorukov

Blagonravov Institute of Engineering Science

Email: info@imash.ru
俄罗斯联邦, Moscow

F. Utyashev

Institute of Metal Superplasticity Problems

Email: info@imash.ru
俄罗斯联邦, Ufa

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