Market Focus
AMG applies metallurgical based technologies to provide solutions for industrial challenges. AMG provides vacuum furnace solutions for high purity metals and is also a producer of specialty alloys and metals used to improve the characteristics of their end products. AMG applies this knowledge to help meet the growing demand for energy and resource conservation in development of advanced applications in the energy, transportation, infrastructure and specialty metals and chemicals industries.
Transportation
Innovation is driving demand for critical materials in the transportation industry. AMG’s lithium concentrate is in high demand as electric vehicle battery demand continues to grow. Highly engineered materials science-based solutions are needed to increase operating efficiency, lower aircraft weight and improve economics.
Energy
Global energy demand growth has reached a new phase due to the increasing adoption of artificial intelligence. Increased demand will need to be met by increasing both renewable and nuclear energy and increased battery storage to support grid efficiency. AMG provides material science based technologies to recycle spent nuclear fuel and improve energy efficiency through the production of vanadium electrolyte for vanadium redox flow batteries and the production of AMG’s LIVA Hybrid Energy Storage System (Hybrid ESS) for industrial applications.
Infrastructure
Improvements in infrastructure are essential to growing global GDP and reducing carbon emissions. AMG provides critical materials such as ferrovanadium for high-strength steels. These technologies are deployed in infrastructure projects that are critical to addressing global urbanization trends.
Specialty Metals & Chemicals
Specialty metals and chemicals are used to create products that improve global living standards. AMG produces customized materials science-based solutions that meet the market’s exacting demands, including tantalum, a material used as a capacitor in electronics, and vanadium-based chemicals which improve the insulating and infrared absorbent properties of structural glass and chemical compounds.