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The hot deformation characteristics of GH4720Li alloy were studied at the temperature of 1100-1170 ℃ and strain rate of 0.01-1 s-1 using Gleeble hot compression tests.True stress-true strain curves and deformation microstructures were investigated.Constitutive equation was established using the hyperbolic law.Processing map for hot working was also developed on the basis of the variations of efficiency of power dissipation with temperature and strain rate.The results show that dynamic recrystallization is the dominant softening mechanism during hot deformation.Fully recrystallized grain is obtained at strain of 0.7 above 1130 ℃,and coarsening occurs above 1150 ℃.The mean deformation activation energy is determined to be 512 kJ/mol.According to the low activation energy value,high dissipation efficiency parameter and fine recrystallized microstructure,1130 ℃ is chosen as the hot working temperature for GH4720Li alloy.
The hot deformation characteristics of GH4720Li alloy were studied at the temperature of 1100-1170 ° C and strain rate of 0.01-1 s-1 using Gleeble hot compression tests. Stress stress-true strain curves and deformation microstructures were investigated. Constitutive equation was established using the hyperbolic law. Processing code for hot working was also developed on the basis of the variations of efficiency of power dissipation with temperature and strain rate. The results show that dynamic recrystallization is the dominant softening mechanism during hot deformation .Fully recrystallized grain is obtained at The mean deformation activation energy is determined to be 512 kJ / mol. Accroding to the low activation energy value, high dissipation efficiency parameter and fine recrystallized microstructure, 1130 ° C is chosen as the hot working temperature for GH4720Li alloy.