B.Zhang
,
H.B.Zhang
,
X.Y.Ruan
,
Y.Zhang
金属学报(英文版)
The isothermal single-stage compression of 35CrMo stuctural steel has been carried out by using Gleeble 1500 simulator at the temperature range of 950℃ to 1150℃ and strain rate range of 0.01s^-1 to 10s^-1.The effect of hot deformation parameters,such as strain rate,deformed temperature and initial grain size on the flow stress behavior was investigated.The activation energy of tested alloy was calculated,which is 378.16kJ/mol;The relationships between the peak stress(σp),the peak stain (εp),the critical strain(εc)and Z parameter were established.The microstructure evolution shows the pre-existing austenite grain boundaries constitute the principal nucleation sites for dynamic recrystallization (DRX),and the initial austenite grain size affects the grain size of DRX slightly.The kinetic mathematical model of DRX of 35CrMo is:XDRX=1-exp(-3.23·(ε-εc/εs-εc)^2.28)and Ddyn=2.252×10^4Z^-0.22。
关键词:
dynamic recrystallization
,
null
,
null
J.Chen
,
Y.X.Wang
,
W.P.Dong
,
X.Y.Ruan
金属学报(英文版)
Based on the characteristics of 3D bulk forming process, the arbitrary Lagrangian-Eulerian (ALE)formulation-based FEM is studied, and a prediction-correction ALE-based FEM is proposed which integrates the advantages of precisely predicting the boundary configuration of the deformed material, and of efficiently avoiding hexahedron remeshing processes. The key idea of the prediction-correction ALE FEM is elaborated in detail. Accordingly, the strategy of mesh quality control, one of the key enabling techniques for the 3D bulk forming process numerical simulation by the prediction-correction ALE FEM is carefully investigated, and the algorithm for hexahedral element refinement is formulated based on the mesh distortion energy.
关键词:
prediction-correction ALE FEM
,
null
,
null
