Views: 0 Author: Site Editor Publish Time: 2023-09-07 Origin: Site
Hydrogen, as the substance with the smallest molecular weight in nature, has incomparable properties in terms of mass compared to other substances. Hydride is used in the manufacturing of structural materials for aerospace and can also be used as fuel and propellant in aerospace propulsion systems.
Lithium aluminum hydride can be used as a high energy density propellant. Due to its high energy storage capacity, lithium aluminum hydride is widely used in propulsion systems to provide strong and efficient thrust. Lithium aluminum hydride also has certain metal processing applications. Due to its high strength and good corrosion resistance, it can be used to manufacture some components and components in military equipment, such as aerospace and missiles.
Lithium borohydride also has certain applications in military communication systems. It can be used as a stabilizer for certain high-frequency power sources to help ensure the efficient operation of communication equipment. Lithium borohydride is widely used as a radiation protection material in spacecraft and aircraft. Due to its excellent neutron absorption performance, it can provide protection in nuclear radiation environments and reduce radiation damage to spacecraft and aircraft.
Lithium aluminum deuteride can be used as a component of high-performance fuel in military applications such as aircraft and missiles. The hydrogen generated through the reaction can provide high energy output.
Lithium chloride can be used to prepare high-energy density batteries, such as lithium-ion batteries or lithium-sulfur batteries. In the military field, high-energy density batteries can be applied to equipment such as drones, missiles, submarines, etc., providing long-term and continuous power supply.
