Aluminum has many effects in the energy vehicle field, including the following aspects:
Lightweight design:
Aluminum has low density, lighter than traditional materials such as steel. The use of aluminum parts can reduce the overall weight of energy vehicles, thereby increasing fuel economy or extending the range of electric vehicles.
Battery shell:
Many energy vehicles use lithium ion batteries as power sources, while aluminum is often used to make battery shells. The lightweight and good corrosion resistance of aluminum make it an ideal choice for the battery shell.
Body structure:
Some energy vehicles use aluminum body structure to reduce weight and improve the performance of the vehicle. Aluminum can make various shapes of parts by squeezing, casting, and welding.
Driver system:
Aluminum is also used in the driver system of energy vehicles, such as engine components, transmission, suspension systems, etc. The use of aluminum can reduce inertia and improve power transmission efficiency.
Heat Management:
Aluminum has good thermal conductivity and can be used for the heat management system of energy vehicles, such as heat sinks, coolers, etc. It can effectively dissipate heat to ensure the normal operation of the vehicle.
In general, the application of aluminum in the energy vehicle field aims to improve the energy efficiency, performance and sustainability of vehicles, while reducing the impact on the environment. With the continuous demand for lightweight and sustainable development, the role of aluminum in energy vehicles may further expand.