What is high purity titanium?

With the continuous application of titanium products in semiconductor, aerospace, new energy and other industries, the requirements of end products on upstream raw materials are increasingly strict, whether it is purity or stability, is a key factor to measure the merits of titanium raw materials.

1. High purity titanium sponge
The highest grade 0A standard requires the purity of titanium to reach 99.8%, and the purity of high-purity titanium sponge produced by Chuangrun New materials can reach 99.95%. We use the upgraded Kroll production process, further purification of raw materials such as titanium tetrachloride, in order to continuously improve the purity of titanium sponge, while the control of its stability is also very concerned, so that high purity titanium sponge can be applied in the development and production of products in various fields.

2. Electrolytic titanium
The sponge titanium is further electrolyzed and purified through the vacuum molten salt electrolysis equipment independently developed by Chuangrun New Materials, and the impurities that are difficult to remove in the sponge titanium are removed, and the core product is obtained: electrolytic titanium. Its purity can reach 99.995%, oxygen content is less than 0.01%.
In addition, in order to match more industry needs, the form of electrolytic titanium products can be customized, and the more commonly used is pressed electrolytic titanium, which is more compatible with the requirements of the alloy addition process.

3.EB smelting high purity titanium
Among the many melting processes, the products of electron beam melting (EB) stand out for their lack of internal defects and excellent impurity removal. Chuangrun New Materials currently has 7 EB furnaces, dedicated to the furnace, the production of titanium ingot purity up to 99.9995%, oxygen content < 0.01%, ingot shape up to a maximum diameter of 800mm, this large diameter ingot makes the subsequent deformation processing more diversified, and significantly improve the processing yield.