The microstractural evolution of microalloyed steel during hot forging process was investigated using physical simulation experiments. The dynamic recrystallized fraction was described by modifying Avrami's equation,...The microstractural evolution of microalloyed steel during hot forging process was investigated using physical simulation experiments. The dynamic recrystallized fraction was described by modifying Avrami's equation, the parameters of which were determined by single hit compression tests. Double hit compression tests were performed to model the equation describing the static recrystallized fraction, and the obtained predicted values were in good agreement with the measured values. Austenitic grain growth was modeled as: Dinc^5 = D0^5 + 1.6 × 10^32t·exp ( -716870/RT ) using isothermal tests. Furthermore, an equation describing the dynamic recrystallized grain size was given as Ddyn=3771·Z^-0.2. The models of microstructural evolution could be applied to the numerical simulation of hot forging.展开更多
Hot compression tests of Mg-8Al-1.5Ca-0.2Sr magnesium alloy were performed on the Gleeble-1500 machine at temperatures of 300,350,400,and 450℃and strain rates of 0.01,0.1 and 1 s^(−1).The flow stress behavior and mic...Hot compression tests of Mg-8Al-1.5Ca-0.2Sr magnesium alloy were performed on the Gleeble-1500 machine at temperatures of 300,350,400,and 450℃and strain rates of 0.01,0.1 and 1 s^(−1).The flow stress behavior and microstructural evolution were followed.The work hardening was derived according to the Laasraoui-Jonas model.An improved approach,which considered the influence of yield stress on flow stress and the effect of grain boundary(GB)migration on the evolution of dislocation density during compression,was used to simulate the microstructural evolution,the flow stress and the volume fraction recrystallized of Mg-8Al-1.5Ca-0.2Sr magnesium alloy.The simulated results are in good agreement with experimental results.展开更多
H13-mod steel developed after optimizing the composition and heat treatment process exhibits good hardness and impact toughness and can be used as a shield machine hob.Based on the Avrami equation,the dynamic recrysta...H13-mod steel developed after optimizing the composition and heat treatment process exhibits good hardness and impact toughness and can be used as a shield machine hob.Based on the Avrami equation,the dynamic recrystallization(DRX)behaviour of H13-mod steel during hot compression was studied in the temperature of 900-1150°C and strain rate ranges of 0.01-10 s^-1.A DRX model and finite element software were used to study DRX behaviour of H13-mod steel.Significant DRX was found at both low and high strain rates.Electron backscatter diffraction and optical microscopy analyses found different DRX nucleation mechanisms at low and high strain rates under different deformations.At a low strain rate,the nucleation was dominated by the strain-induced grain boundary migration,whereas the subgrain coalescence mechanism was dominant at a high strain rate.Moreover,dynamic recovery occurred in both processes.In addition,it was easier to obtain small and uniform equiaxed grains at high strain rates than at low strain rates.展开更多
The static recrystallization behavior of SA508-III steel was investigated by isothermal double-hit hot compression tests at the deformation temperature of 950-1 250 ℃,the strain rate of 0. 01-1 s^(-1),and the inter...The static recrystallization behavior of SA508-III steel was investigated by isothermal double-hit hot compression tests at the deformation temperature of 950-1 250 ℃,the strain rate of 0. 01-1 s^(-1),and the inter-pass time of 1-300 s.The effects of deformation parameters,including forming temperature,strain rate,degree of deformation( pre-strain) and initial austenite grain size,on the softening kinetics were analyzed. Experimental results show that static recrystallization kinetics is strongly dependent on deformation temperature and degree of deformation,while less affected by the strain rate and initial grain size. The kinetics and microstructural evolution equations of static recrystallization for SA508-III steel were developed to predict the softening behavior and the statically recrystallized grain size,respectively. Based on the comparison between the experimental and predicted results,it is found that the established equations can give a reasonable estimate of the static softening behavior for SA508-III steel.展开更多
基金This work was supported by the National Natural Science Foundation of China (No. 50275094).
文摘The microstractural evolution of microalloyed steel during hot forging process was investigated using physical simulation experiments. The dynamic recrystallized fraction was described by modifying Avrami's equation, the parameters of which were determined by single hit compression tests. Double hit compression tests were performed to model the equation describing the static recrystallized fraction, and the obtained predicted values were in good agreement with the measured values. Austenitic grain growth was modeled as: Dinc^5 = D0^5 + 1.6 × 10^32t·exp ( -716870/RT ) using isothermal tests. Furthermore, an equation describing the dynamic recrystallized grain size was given as Ddyn=3771·Z^-0.2. The models of microstructural evolution could be applied to the numerical simulation of hot forging.
基金The authors gratefully acknowledge research support from the National Key Project Of Science and Technology“Highgrade CNC machine tools and basic manufacturing equipment”(No:2014ZX04002071)the Changsha Science and Technology Project(No.K1112067-11)and the Supporting Program of the“Twelfth Five-year Plan”for Sci&Tech Research of China(No.2011BAG03B02).
文摘Hot compression tests of Mg-8Al-1.5Ca-0.2Sr magnesium alloy were performed on the Gleeble-1500 machine at temperatures of 300,350,400,and 450℃and strain rates of 0.01,0.1 and 1 s^(−1).The flow stress behavior and microstructural evolution were followed.The work hardening was derived according to the Laasraoui-Jonas model.An improved approach,which considered the influence of yield stress on flow stress and the effect of grain boundary(GB)migration on the evolution of dislocation density during compression,was used to simulate the microstructural evolution,the flow stress and the volume fraction recrystallized of Mg-8Al-1.5Ca-0.2Sr magnesium alloy.The simulated results are in good agreement with experimental results.
基金This work was supported by National Natural Science Foundation of China(Grant No.51571066)Guizhou Science and Technology Project(Grant Nos.20165654 and 20162326).
文摘H13-mod steel developed after optimizing the composition and heat treatment process exhibits good hardness and impact toughness and can be used as a shield machine hob.Based on the Avrami equation,the dynamic recrystallization(DRX)behaviour of H13-mod steel during hot compression was studied in the temperature of 900-1150°C and strain rate ranges of 0.01-10 s^-1.A DRX model and finite element software were used to study DRX behaviour of H13-mod steel.Significant DRX was found at both low and high strain rates.Electron backscatter diffraction and optical microscopy analyses found different DRX nucleation mechanisms at low and high strain rates under different deformations.At a low strain rate,the nucleation was dominated by the strain-induced grain boundary migration,whereas the subgrain coalescence mechanism was dominant at a high strain rate.Moreover,dynamic recovery occurred in both processes.In addition,it was easier to obtain small and uniform equiaxed grains at high strain rates than at low strain rates.
基金Item Sponsored by National Basic Research Program of China(2011CB012903)National Science and Technology Major Project of China(2012ZX04012-011)
文摘The static recrystallization behavior of SA508-III steel was investigated by isothermal double-hit hot compression tests at the deformation temperature of 950-1 250 ℃,the strain rate of 0. 01-1 s^(-1),and the inter-pass time of 1-300 s.The effects of deformation parameters,including forming temperature,strain rate,degree of deformation( pre-strain) and initial austenite grain size,on the softening kinetics were analyzed. Experimental results show that static recrystallization kinetics is strongly dependent on deformation temperature and degree of deformation,while less affected by the strain rate and initial grain size. The kinetics and microstructural evolution equations of static recrystallization for SA508-III steel were developed to predict the softening behavior and the statically recrystallized grain size,respectively. Based on the comparison between the experimental and predicted results,it is found that the established equations can give a reasonable estimate of the static softening behavior for SA508-III steel.
