A physical metallurgical model was made to predict microstructure evolution and mechanical properties of C-Mn steel plate during control rolling and control cooling process, which consists of four modules: reheating, recrystallization, phase transformation and mechanical properties.

Experimental method and parameters of liquidus forging are given in this paper to prepare the bellit for semi-solid process,and microstructure evolution of magnesium alloy ZK60-RE during semi-solid isothermal heat treatment is researched as well.

In order to study the effect of process parameters on microstructure evolution during multi-step forging,recrystallization and grain growth models were implemented into a finite element code,then coupling between thermo-mechanical and microstructure evolution was realized.

One of important simulation models of microstructural evolution is Monte Carlo Potts Model.

A physical metallurgy model based on Thermo-Calc of thermodynamics software and kinetics theory has been developed to predict microstructural evolution of low carbon steel after controlled rolling and controlled cooling,and a corresponding regression mechanical properties model has been put forward.

The computer simulation of microstructural evolution in hot rolling and the research of the relationship between microstructure and mechanical properties have been one of the hot topics in recent years .

Therefore,predicting and controlling microstructure evolution are key problems in isothermal local loading process.

In this paper,the research progress is reviewed about the microstructure evolution and nanocrystallization mechanism of metallic materials synthesized by the plastic deformation at high strain rate,such as surface mechanical attrition and high energy ball milling.

Effect of electrolytic copper powder and atomizing copper powder to microstructure evolution during SPS;