19 Dec,2024
The aluminum profile of the floor of the battery shell of new energy vehicles adopts an integrated streamlined design, which not only improves the aerodynamic performance and effectively reduces wind resistance, but also greatly enhances the structural strength and impact resistance, providing 360° all-around protection for the battery pack. At the same time, the fine sealing treatment ensures that the waterproof and dustproof level of the battery compartment reaches the industry standards, and is not afraid of the test of bad weather and complex road conditions. In terms of manufacturing technology, we use high-precision CNC processing and advanced surface treatment technology, such as anodizing or electrophoretic coating, which not only gives the surface of the aluminum profile a smooth and bright appearance, but also improves its corrosion resistance and wear resistance, and prolongs its service life. In addition, the flexible modular design makes the aluminum profile easy to install and maintain, and can quickly adapt to the customized needs of different new energy vehicle platforms. The aluminum profile shell is finely sealed to ensure that the battery compartment reaches a high standard of waterproof and dustproof level (such as IP67 or higher), effectively preventing moisture and dust from entering the battery compartment, and protecting the battery pack from corrosion and short circuit risks. The aluminum profile shell undergoes advanced surface treatment technologies such as anodizing and electrophoretic coating to form a dense protective film that can effectively resist the erosion of the material by harsh environments such as acid rain and salt spray, thereby extending the service life of the battery shell.
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19 Dec,2024
12 Dec,2024
05 Dec,2024
29 Nov,2024
05 Nov,2024
05 Nov,2024
The vigorous development of the new energy vehicle industry has promoted the in-depth research on battery shell materials. Against this background, the new energy vehicle battery shell floor aluminum profile has gradually become a star material in the industry with its unique advantages.
The new energy vehicle battery shell floor aluminum profile is mainly made of high-quality aluminum alloy. Aluminum alloy not only has a light body, but also has remarkable strength and toughness, which provides strong support for the lightweight design of new energy vehicles. In addition, the excellent corrosion resistance, thermal conductivity and electrical conductivity of aluminum alloy are the escort for the stable operation of the battery system. These characteristics make aluminum profiles an ideal choice for battery shell floors, which not only reduces the vehicle's own weight, but also improves the safety and reliability of the battery system.
In the design process of new energy vehicle battery shell floor aluminum profiles, innovation and integration have become the main theme. Designers fully consider the layout requirements, heat dissipation requirements and safety performance of the battery system, and through precise calculations and simulations, create aluminum profiles that meet functional requirements and have beautiful appearance. In terms of structural design, aluminum profiles are cleverly integrated into the layout of the battery modules, ensuring close connection and stable support between the modules. At the same time, through the reasonable design of the heat dissipation channel, aluminum profiles effectively improve the heat dissipation efficiency of the battery system and extend the service life of the battery. In terms of safety performance, the strength and rigidity of aluminum profiles are fully guaranteed, and can provide solid protection for the battery system in extreme situations such as collisions.
The aluminum profiles of the battery shell floor of new energy vehicles have shown extraordinary strength in high-performance applications. Its light body greatly reduces the curb weight of new energy vehicles, thereby improving the fuel economy and endurance of the vehicle. At the same time, the high strength and high rigidity of aluminum profiles ensure that the battery shell floor remains stable when subjected to large loads and deformation, providing a strong guarantee for the safe operation of the battery system. In terms of heat dissipation, aluminum profiles quickly dissipate the heat generated by the battery system through optimized heat dissipation design, avoiding the risk of battery overheating and damage.