Fortu Tech specializes in manufacturing Titanium alloys Ti-22V-4Al TB13 products.
| Titanium alloys Ti-22V-4Al TB13 Regular Product | ||
| Ti-22V-4Al Wire | Ti-22V-4Al Foil | Ti-22V-4Al Sheet |
| Ti-22V-4Al Rod | Ti-22V-4Al Ring | Ti-22V-4Al Tube |
| Ti-22V-4Al Pellet | Ti-22V-4Al Target | Ti-22V-4Al Ingot |
Ti-22V-4Al is a metastable β-type titanium alloy. This means that after the solution treatment, the microstructure of Ti-22V-4Al is almost entirely composed of the β phase (body-centered cubic structure), and this state of the alloy is very soft and easy to be processed and shaped.
22% vanadium is the main β-stable element and is crucial for the formation of the fully β-phase structure. The 4% titanium content plays a strengthening role, enhancing the strength and thermal stability of the alloy. The core advantage of Ti-22V-4Al lies in its excellent cold formability. Under these conditions, Ti-22V-4Al can achieve its ultimate performance.
| Chemical Requirements Titanium alloys Ti-22V-4Al TB13 | |||||||
| Element % | C | N | O | H | V | Al | Fe |
| Content Maximum % | 0.05 | 0.03 | 0.18 | 0.01 | 20-23 | 3-4.5 | 0.15 |
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The preparation of Ti-22V-4Al titanium alloy mainly involves two methods: melting method and powder metallurgy method.
The melting method first mixes titanium and alloy elements in a certain proportion, then melts them at high temperature and cools them to form a Ti-22V-4Al ingot. Subsequently, the Ti-22V-4Al ingot undergoes heat mechanical treatments such as forging and rolling, and then undergoes heat treatment to adjust the microstructure and properties. Finally, Ti-22V-4Al alloy material is obtained.
The powder metallurgy process involves first mixing titanium and alloying elements in powder form in a uniform ratio, then forming the material through cold pressing or hot isostatic pressing, and finally conducting high-temperature sintering to obtain a dense Ti-22V-4Al material. Finally, it undergoes heat treatment to obtain Ti-22V-4Al alloy products that meet the required performance standards.
The Ti-22V-4Al β-titanium alloy exhibits excellent mechanical properties and corrosion resistance, and has been widely applied in several high-end fields.
In the aerospace field, the Ti-22V-4Al titanium alloy is widely used to manufacture aircraft structural components and engine parts, such as fuselage frames, wing skins, and compressor blades, etc. Its high specific strength and lightweight properties help to reduce the weight of aircraft, improve fuel economy and overall flight performance.
In the automotive manufacturing industry, the Ti-22V-4Al titanium alloy is commonly used in the manufacturing of the bodies and key components of high-performance racing cars and luxury vehicles. It not only effectively enhances the safety and structural efficiency of the vehicles, but also further improves their power performance and handling stability.
In the field of medical devices, the Ti-22V-4Al alloy is widely used in the manufacturing of artificial joints, bone implants, and dental implants due to its excellent biocompatibility and resistance to body fluid corrosion. This significantly reduces the risks of postoperative rejection and complications, and enhances the long-term safety of the implants.
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