XBCD Advanced Materials Technology Corporation is committed to the R&D and manufacturing of high-end titanium alloy materials and superconducting materials.
High-end titanium alloy material
Including bars, wires, forging billets, etc., mainly used in aviation (including aircraft structural parts, fasteners and engine parts, etc.) and other fields.
A variety of new titanium alloys developed and mass-produced by the company have filled many gaps in China. Among them, TC-4DT, TC-21, Ti45Nb and other three main grades of new titanium alloys have become titanium alloy materials for aerospace structural parts and fasteners in China, providing key materials for various important equipment in China.
It is one of the two companies that mass-produce Ti45Nb titanium alloy materials in the world, breaking the technological blockade imposed by developed countries in Europe and the United States on China.
The world's only full-process manufacturer of superconducting materials
The company is currently the only enterprise in China that has realized the commercial production of superconducting wire rods, and is also the only international enterprise in the whole process of producing niobium-titanium ingots, bars, superconducting wire rods and superconducting magnets.
International competitors include German Bruker, British Luvata, Japanese JASTEC and American ATI.
At present, the company's superconducting products are mainly used in MRI (nuclear magnetic resonance imager), MCZ (magnetron Czochralski monocrystalline silicon technology), CFETR (thermonuclear fusion experimental reactor) and other fields.
MRI is currently the most important application field of superconducting materials. The company has developed engineering production technologies such as NbTi superconducting wire conductor structure design for MRI, high dimensional precision processing, high copper ratio wire inlay molding and other engineering production technologies, and has supplied GE and Siemens in batches, breaking the international monopoly and filling the gap in China.
In terms of MCZ, the MCZ technology that uses superconducting magnets to provide a stable magnetic field of 5000Gs is currently the most important method for producing large-sized semiconductor-grade monocrystalline silicon over 300mm in the world.
The company has successfully developed China's first high magnetic field strength superconducting magnet dedicated to magnetron Czochralski monocrystalline silicon. With the continuous improvement of the industrial chain of monocrystalline silicon preparation equipment and the gradual increase in domestic substitution, the output of monocrystalline silicon furnaces will increase rapidly, and the market for superconducting magnets for MCZ will be broad in the future.