Dynamic Recrystallization Behavior of GH4586 Superalloy during Hot Compression

Lei Wang; Shu Ai Wang; Yang Liu; Guang Pu Zhao

doi:10.4028/www.scientific.net/MSF.638-642.2357

Paper Titles

Effect of Thermomechanical Processes on Σ3 Grain Boundary Distribution in a Nickel Base Superalloy
p.2333

Directional Diffusion and Effect Factors of the Elements during Creep of Nickel-Base Single Crystal Superalloys
p.2339

Phase Transformation Behavior of Boron Containing 9% Cr Heat Resistant Steels
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Heat Treatment and Oxidation Characteristics of Nb-20Mo-15Si-5B-20(Cr,Ti) Alloys from 700 to 1400°C
p.2351

Dynamic Recrystallization Behavior of GH4586 Superalloy during Hot Compression
p.2357

The Precipitation Strengthening Effect of Nb, Ti and Al in Cast/Wrought Ni-Base Superalloys
p.2363

Study on the Ultrahigh Speed Grinding of Superhard Materials with Squeeze Film Damping Technology
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The Halogen Effect for Ni-Base Superalloys – A Thermodynamic Study
p.2375

Residual Stress in PVD-Coated Carbide Cutting Inserts - Applications of the sin²ψ and the Scattering Vector Method
p.2383

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Dynamic Recrystallization Behavior of GH4586 Superalloy during Hot Compression

Abstract:

Compression test for GH4586 superalloy was carried out at 1273 K and 1373 K with stain from 20% to 60%. The characteristics of dynamic recrystallization were investigated by confocal laser scanning microscope, TEM and EBSD. It was found that at 1273 K dynamic recrystallization mainly took place along preexisting grain boundaries creating a necklace structure. It was confirmed by TEM observations that the first layer of the necklace structure was formed by the mechanism of bulging of preexisting grain boundaries and the following layers were nucleated at the triple junctions of former dynamic recrystallization grains. When specimens were deformed with different strains at 1373 K, dynamic recrystallization was almost completed. Our observation showed that twinning played an important role during dynamic recrystallization by promoting dynamic recrystallization grains growing. Substructures of grains were constructed by the reconfiguration of dislocations hindered at large ' particles in interior of initial grains during dynamic recovery.