The paper studies elementally the titanium super plastic deformation at room temperature, including the research work on the rapid compression test,properties,micro-structures etc.

In this paper, the super plasticity of magnesium alloy has been fully represented, and the preparation methods of magnesium alloy with super plasticity in the future have been also introduced.

Dispersion of polycarboxylate superplasticizer containing polyether side chain;

Development of the amino sulfonic acid based superplasticizer;

Synthesis of amphoteric carboxylic acid-based graft copolymer superplasticizer for concrete and its property evaluation;

Prediction of Superplastic Properties of Lead Brass Based on BP Neural Network;

The Research on Superplastic of Ultrafine Grained Ultrahigh-carbon Steels;

The Development of Superplastic Diffusion Bonding in Ceramics;

Effect of holding time on high temperature microstructures of hydrogenation TC4 alloy before superplastic deformation;

This paper studied the superplastic deformation behavior of enhanced titanium-base composite material in-si- tu autogenesis TiB and TiC under conditions of temperature varied in the range of 920～1080℃ and initial strain rate was 2× 10~(-2)s~(-1)～10~(-4)s~(-1).

Optical microscope and scanning electronic microscope ( SEM) were employed to observe the microstructure evolution and fracture behavior in superplastic deformation of AZ31 Mg alloy and the values of deformation activation energy at various.