Study on the thermal deformation behavior and microstructure of FGH96 heat extrusion alloy during two-pass hot deformation

The change rules associated with hot deformation of FGH96 alloy were investigated by isothermal two-pass hot deformation tests in the temperature range 1050–1125°C and at strain rates ranging from 0.001 to 0.1 s −1 on a Gleeble 3500 thermo-simulation machine. The results showed that the softening de...

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Bibliographic Details
Published in:International journal of minerals, metallurgy and materials metallurgy and materials, 2019-05, Vol.26 (5), p.657-663
Main Authors: Fang, Bin, Tian, Gao-feng, Ji, Zhen, Wang, Meng-ya, Jia, Cheng-chang, Yang, Shan-wu
Format: Article
Language:English
Subjects:
Boundaries
Ceramics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Composites
Corrosion and Coatings
Crystallization
Deformation
Dynamic recrystallization
Dynamic response
Glass
Grain boundaries
Grain size
Materials Science
Metallic Materials
Natural Materials
Nickel base alloys
Strain
Strain rate
Stress-strain curves
Superalloys
Surfaces and Interfaces
Temperature
Thermal simulation
Thin Films
Tribology
True strain
True stress
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Summary:The change rules associated with hot deformation of FGH96 alloy were investigated by isothermal two-pass hot deformation tests in the temperature range 1050–1125°C and at strain rates ranging from 0.001 to 0.1 s −1 on a Gleeble 3500 thermo-simulation machine. The results showed that the softening degree of the alloy between passes decreases with increasing temperature and decreasing strain rates. The critical strain of the first-pass is greater than that of the second-pass. The true stress-true strain curves showed that single-peak dynamic recrystallization, multi- peak dynamic recrystallization, and dynamic response occur when the strain rate is 0.1, 0.01, and 0.001 s −1 , respectively. The alloy contains three different grain structures after hot deformation: partially recrystallized tissue, completely fine recrystallized tissue, coarse-grained grains. The small-angle grain boundaries increase with increasing temperature. Increasing strain rates cause the small-angle grain boundaries to first increase and then decrease.
ISSN:1674-4799
1869-103X
DOI:10.1007/s12613-019-1774-0