It is a key basic product in the vanadium-based material industry chain, exhibiting a silver-gray metallic luster, a hard texture, and being non-magnetic, with good ductility and processability. As the core form of refractory metal vanadium, vanadium ingot heads are produced in strict accordance with the high-purity metal vanadium ingot industry standards, with a purity of 3N-V (99.9%) and so on, meeting the differentiated needs of various fields such as metallurgy, aerospace, new energy storage, and electronic semiconductors.
Vanadium exhibits stable performance. It undergoes purification through multiple high-precision processes such as electron beam melting, ion exchange, and high-temperature calcination, resulting in extremely low impurity content. This minimizes the interference of impurities on the performance of alloys and end products from the source. The high purity characteristic endows vanadium ingots with excellent chemical stability. In its dense state at room temperature, it does not react with air, water, or alkalis. Its corrosion resistance in non-oxidizing acids such as hydrochloric acid and sulfuric acid far exceeds that of most stainless steels, making it less prone to corrosion and failure during long-term use. It is resistant to high temperatures and possesses excellent strength. Vanadium ingots have a melting point of up to 1890°C and a boiling point of 3380°C. Even in high-temperature environments ranging from 400-600°C, they maintain stable strength and hardness, without rapidly softening as the temperature increases. This makes them suitable for long-term operation under high-temperature conditions. Additionally, they exhibit excellent structural reinforcement capabilities. As an alloy additive, they can refine steel grain size and increase the grain coarsening temperature, significantly enhancing the material's strength, toughness, wear resistance, and fatigue resistance. A small amount of addition can achieve leapfrog improvements in steel performance. They are suitable for multiple scenarios with low density and high specific strength: with a density of only 6.11g/cm³, they combine lightweight advantages with high-strength metals, ensuring structural strength while reducing weight. This makes them suitable for aerospace and high-end equipment weight reduction needs. They possess good electrical conductivity and processability. With moderate electrical conductivity, they can be used in electrical contact materials that require both conductivity and corrosion resistance. At the same time, they can be processed into various forms such as vanadium rods, vanadium targets, and vanadium wires through forging, rolling, cutting, and other processes to meet precision manufacturing needs. They are non-magnetic and radiation-resistant: their non-magnetic properties make them suitable for anti-magnetic scenarios in electronic devices and precision instruments. Their excellent radiation resistance allows them to be used in core components such as nuclear reactor control rod guides and fuel cladding supports, withstanding the complex radiation environment inside the reactor.

Product Specifications and Customization Services: Standard purity: 3N (99.9%), special sizes can be customized according to demand. Standard ingot heads, customized irregular ingot heads, and surface treatments such as grinding, polishing, and lapping are available. We can provide exclusive technical solutions and products based on specific customer application scenarios, and follow up on production and quality control throughout the process.





