In the context of coping with environmental changes and promoting the development of new energy, magnesium alloy forgings play an important role in the field of new energy. Firstly, magnesium alloy forgings can be applied to the manufacture of structural components for electric vehicles. Electric vehicles are battery-driven clean energy vehicles, and magnesium alloy has the characteristics of light weight and high strength, which can improve the energy efficiency and driving range of electric vehicles. Through the application of magnesium alloy forgings, the overall weight of electric vehicles can be reduced, energy consumption can be reduced, and driving range can be improved. In addition, the excellent electrical conductivity of magnesium alloys also makes it an ideal material for electronic components such as battery boxes and radiators for electric vehicles. Secondly, magnesium alloy forgings can be applied to new energy power generation equipment. For new energy equipment such as wind power generation and solar power generation, magnesium alloy forgings can be used to manufacture pulp blades, generator shells, transmission systems and other key components. The high strength and corrosion resistance of magnesium alloys enable new energy equipment to better adapt to harsh environmental conditions and improve the stability and efficiency of equipment. In addition, magnesium alloy forgings can also be applied to the field of hydrogen energy. Hydrogen fuel cell, as a clean energy technology, has been widely concerned and developed. Magnesium alloy forgings can be used to manufacture key components of hydrogen energy equipment, such as hydrogen storage tanks, fuel cell stacks, etc. At the same time, the good thermal conductivity and high oxidation stability of magnesium alloy make it an ideal material choice for hydrogen energy equipment. However, magnesium alloy forgings still face some challenges in the application of new energy fields. First of all, the corrosion resistance of magnesium alloys needs to be further improved to cope with the complex and changeable working environment in new energy equipment. Secondly, the production process and cost of magnesium alloy forgings need to be further studied and improved to improve production efficiency and reduce manufacturing costs. Therefore, in the future development, through further research and development and innovation, increase the promotion of magnesium alloy forgings in the field of new energy applications, help to promote the development of new energy industry, accelerate the transformation of clean energy instead of traditional energy.
