EK61和EP975变形镍基超合金的低温超塑性变形

IF 0.8 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
E. Galieva, E. Klassman, R. Gabbasov, Egor M. Stepukhov, V. Valitov
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引用次数: 0

摘要

研究表明,应变速率(ε∙)为10−3 s−1的EK61高温合金的热机械处理(TMT)和处理温度从(0.92–0.65)Tδ逐渐降低,导致初始粗晶粒结构转变为超细晶粒(UFG)混合型结构。这种混合UFG微观结构由尺寸为0.3μm的γ相颗粒和δ相颗粒以及尺寸高达2μm的相对较大的δ相颗粒组成。具有这种微观结构的EK61高温合金在700–900°C的温度范围内表现出低温超塑性,其最大特性在850°C和ε∙=10−3 s−1时实现。在(0.84–0.8)Тγ’温度范围内的低温TMT也导致EP975高温合金中形成UFG结构。EP975高温合金的UFG组织由γ相晶粒和0.5μm的γ′相颗粒组成。具有这种结构的EP975高温合金在900–1000°C的温度范围内表现出低温超塑性,其最大特性在1000°C和ε∙=10−3 s−1时实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low-temperature superplastic deformation of EK61 and EP975 wrought nickel-based superalloys with an ultrafine-grained structure
It is shown that thermomechanical treatment (TMT) of the EK61 superalloy with a strain rate (ε ∙ ) of 10 −3 s −1 and a gradual decrease in the treatment temperature from (0.92 – 0.65) T δ leads to the transformation of the initial coarse-grained structure into an ultrafine-grained (UFG) mixed type structure. Such a mixed UFG microstructure consists of γ-phase grains and δ-phase particles 0.3 μm in size and relatively large particles of the δ-phase up to 2 μm in size. The EK61 superalloy having such a microstructure exhibits low-temperature superplasticity in the temperature range of 700 – 900°C, the maximum characteristics of which are achieved at 850°C and ε ∙ =10 −3 s −1 . Low-temperature TMT in the temperature range of (0.84 – 0.8) Т γ' also leads to the formation of an UFG structure in the EP975 superalloy. The UFG microstructure of the EP975 superalloy consists of γ-phase grains and γ'-phase particles 0.5 μm in size. And there are relatively large particles of the γ'-phase up to 3.5 μm in size of a globular-shaped form. The EP975 superalloy with such a structure exhibits low-temperature superplasticity in the temperature range of 900 –1000°C, the maximum characteristics of which are achieved at 1000°C and ε ∙ =10 −3 s −1 .
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来源期刊
Letters on Materials
Letters on Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
1.60
自引率
14.30%
发文量
48
期刊介绍: The aim of "Letters on materials" is to provide a fast publication of short research and review articles on various topics in materials science and related areas of material physics and mechanics. The editorial board sees it''s own task in rapid informing of the readers on the state-of-the-art challenges and achievements in materials science. The editorial board does its best to select high quality papers reporting new scientific results that are of interest for researchers in materials science, physics, and mechanics. "Letters on materials" invites Russian and foreign researches to publish papers in both the Russian and English languages. The scope of the journal covers the following research areas: structure analysis of materials, mechanical and physical properties of materials, production and processing of materials, experimental methods of investigation of materials, theory and computational methods in solid state physics. "Letters on materials" is designed for researchers, engineers, lecturers, and students working in the areas of materials science, mechanical engineering, metal forming, physics, and material mechanics.
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