Coupled thermo-mechanical FEM analysis of the vacuum hot bulge forming of BT20 Titanium alloy cylindrical workpiece;

Prediction of flow stress of BT20 titanium alloy by BP neural network;

Effect of plastic deformation on microstructure and mechanical properties of weld metal in BT20 titanium alloy;

A Study of hot deformation behavior for BT20 alloy;

The stress relaxation behavior of BT20 alloy with widmanstaten and equiaxed microstructure,as well as the relationship of plastic strain rate and stress,were investigated in this paper.

The thermo-compressive behavior and deformation mechanism of BT20 alloy with hydrogen at high temperature were studied in this paper.

The barriers were prospected to be used in titanium and its alloys as protective coatings.

A simultaneous determination of oxygen and hydrogen in titanium and its alloys on infrared absorption has been described,and the optimal conditions have been obtained.

Anodizing coloring mechanism of titanium and its alloys was analyzed to make sure the relationship of fiun thickness and coloring power source, so that the technological method and current design parameters were deduced to keep the color consistence of bath production, which provided an available method for coloring of titanium and its alloys.

However, the production and utilization of titanium and its alloys are limited for their high chemical activity at molten state.

The determination of Zr, Ru, Pd, Hf, Cu, Y, V, Mo, Nb, Al, Co, Ni, Ta, Bi, Sn, Cr and Mn in Ti and its alloys have been studied using an atomic emisson spectrum spectroscopy.