Processing technology of titanium and titanium alloy block

Plastic processing of titanium and titanium alloys has the characteristics of large deformation resistance, plastic difference at room temperature, high yield limit and strength limit ratio, large springback, sensitivity to notches, easy adhesion to the mold during deformation, and easy absorption of harmful gases when heated. Plastic processing is more difficult than steel and copper. Therefore, the processing technology of titanium and titanium alloys must take these characteristics into consideration. Titanium adopts plastic processing, the processing size is not limited, and it can be mass-produced, but the yield rate is low, and a large amount of scraps and residues are generated during the processing.

Aiming at the above shortcomings of titanium plastic processing, powder metallurgy technology for titanium alloy blocks has been developed in recent years. The powder metallurgy process of Grade 5 Ti-6Al-4V Titanium Wire is the same as ordinary powder metallurgy, but the sintering must be carried out under vacuum. It is suitable for the production of large-volume, small-sized parts, and is especially suitable for the production of complex parts.

This method requires almost no processing and has a high yield rate. It can not only make full use of titanium waste as raw materials, but also reduce production costs, but it cannot produce large-size titanium parts. The powder metallurgy process of titanium is: titanium powder (or titanium alloy powder)-screening-mixing-press forming-sintering-auxiliary processing-titanium products. The processing in the above process refers to plastic processing and casting. Plastic processing methods include forging, extrusion, rolling, stretching and so on.

The Grade 9 Ti3Al2.5V Titanium Pipe ingot is processed into various sizes of cakes, rings, plates, pipe trees, bars, profiles and other products. Casting methods can also be used to pores, and the corrosion resistance is reduced; therefore, inert gas or vacuum protection is used when titanium welding; welding; Recrystallization is easy to occur in the place, especially β-titanium, which causes coarse crystals, resulting in a decrease in ductility at this place; in addition, the deformation of titanium is large when welding, and it is difficult to correct.