AHYL Aerospace Materials Technology Corporation is committed to R&D and production of high-performance aerospace materials products.
High-temperature alloy hot-end components for aero engines and gas turbines
The company built an isometric crystal blade production line, a directional and single crystal blade production line, a casing and aerospace structural parts production line. The construction area of the project is 130 acres, the construction area is 44,941 square meters, and the total investment is 1.2 billion yuan, of which fixed assets investment is 650 million yuan.
Introduced-more than 240 sets of equipment from seven countries, the process layout and equipment selection are based on world-class enterprises such as PCC and Howmet as the benchmark, and the overall level has reached the international advanced and domestic first-class level. After the project is completed and put into production, it will have an annual production capacity of 100,000 high-temperature alloy equiaxed crystal and directional single crystal blades, 500 casings and structural parts, meeting the urgent needs of China’s advanced aero-engines and heavy-duty gas turbines, serving the international aviation engine, and gas turbine market.
Aero Engine Titanium Aluminum Blade
Titanium-aluminum blades are leading and revolutionary technologies for high-temperature, high-strength, lightweight materials for aero-engines, and are also key strategic materials that China urgently needs to develop. Rolls-Royce commissioned the Institute of Metal Research of the Chinese Academy of Sciences to develop titanium-aluminum blades and master alloys in 2007, which have passed the certification.
AHYL won the bid for Rolls-Royce China's supplier "two of the ten" and was determined to be Rolls-Royce's main supplier. AHYL and the Institute of Metals of the Chinese Academy of Sciences established a joint venture company to realize the industrialization of titanium and aluminum blades, mass production of titanium and aluminum blades for Rolls-Royce Trent engines, and participated in the research and development of its most advanced superfan engine.