Mechanical properties and weldability of powder EP741NP nickel-based superalloy with an ultrafine-grained mixed type microstructure

E.V. Galieva, V.A. Valitov, E.Y. Klassman, A.A. Ganeev ORCID logo , R.R. Gabbasov, E.M. Stepukhov, I.I. Khafizov показать трудоустройства и электронную почту
Получена 26 октября 2023; Принята 29 ноября 2023;
Эта работа написана на английском языке
Цитирование: E.V. Galieva, V.A. Valitov, E.Y. Klassman, A.A. Ganeev, R.R. Gabbasov, E.M. Stepukhov, I.I. Khafizov. Mechanical properties and weldability of powder EP741NP nickel-based superalloy with an ultrafine-grained mixed type microstructure. Письма о материалах. 2023. Т.13. №4s. С.493-498
BibTex   https://doi.org/10.22226/2410-3535-2023-4-493-498

Аннотация

The powder EP741NP superalloy with the initial ultrafine-grained microstructure after superplastic deformation and a solid-state joint in combination of the EP741NP superalloy and a cast intermetallic VKNA-25 alloy.This work was devoted to a study of microstructural changes and mechanical properties of the EP741NP superalloy with an ultrafine-grained (UFG) mixed-type microstructure. The deformation of samples with an UFG microstructure was carried out according to the uniaxial compression scheme in a wide temperature range of 750 –1125°C and strain rates of 5 ·10−4 –10−2 s−1. It has been established that the UFG microstructure is stable up to a temperature of 900°C. A temperature increase up to 1000 –1125°C led to the transformation of a UFG mixed-type microstructure into a fine-grained microduplex-type microstructure. It was also shown that a solid-state joint of intermetallic single-crystal VKNA-25 alloy with powder EP741NP superalloy could be obtained by pressure welding under temperature-strain conditions of superplasticity for the EP741NP superalloy. It was found that during pressure welding a transition diffusion zone was formed, the width of which was equal to 10 μm.

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Финансирование на английском языке

1. Ministry of Education and Science of the Republic of Bashkortostan - the Grant of Republic of Bashkortostan (Agreement No.1 from 14.08.2023)
2. Institute for metals superplasticity problems of the russian academy of sciences - State assignment No. 122011900470-7
3. Institute for metals superplasticity problems of the russian academy of sciences - State assignment No. 122011900474-5