| Customization: | Available |
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| Color: | as Request |
| Application: | Transportation Tools, Door & Window, Glass Wall, Decorations |
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Product Description:The AutoTank 3004 aluminum alloy, with a thickness of 2.5mm and a width of 1800mm, is a specialized material designed for stamping automobile fuel tanks. Part of the 3000 series, this non-heat-treatable alloy is primarily composed of aluminum, manganese, and small amounts of magnesium, offering a balance of strength, formability, and corrosion resistance. These properties make it an ideal choice for modern automotive applications, where reducing vehicle weight is critical for improving fuel efficiency and meeting emission standards. The alloy's ability to be formed into complex shapes without cracking, combined with its durability in harsh environments, positions it as a cost-effective alternative to traditional steel fuel tanks. Its wide 1800mm format supports efficient, high-volume production, catering to the needs of global automotive manufacturers (Shandong Qinglai Aluminum).
Basic Info.
| Product | AutoTank 3004 Aluminum Alloy - 2.5mm/1800mm for Automobile Fuel Tank Stamping |
| Thickness | 0.1-2.5mm |
| Width | 800-2200mm |
| Material | 3004(as request) |
| Temper | O, H12, H14, H16, H18, H24, H26, H32, H34, etc |
| Surface Finishing | Coating |
| T-Bend | No More Than 2t |
| Coating thickness | PVDF Paint Coating: Not Less Than 25um |
| PE Paint Coating : Not Less Than 18um | |
| Packing | Export Standard Wooden Pallets (Eye To Wall,Eye To Sky) |
| Payment Terms | L/C at sight or 30% T/T in advance as deposit, and 70% balance against the B/L copy. |
| MOQ | 2Tons Per Specification |
| Delivery Time | Within 30-45 Days |
| Loading Port | Shanghai,Ningbo,Qingdao,Tianjin Port and Etc |
| Application |
fuel tanks |
Asia: In China and Japan, where the automotive industry is a major economic driver, 3004 aluminum alloy is likely used for fuel tanks in passenger cars, trucks, and hybrid vehicles. Its lightweight properties support the region's focus on electric and hybrid vehicle production.
Europe: European automakers, such as Volkswagen and BMW, likely employ 3004 aluminum alloy for fuel tanks to meet stringent EU emission and weight reduction regulations, particularly in compact and luxury vehicles.
North America: In the United States, companies like Ford and General Motors likely use 3004 aluminum alloy for fuel tanks in trucks and SUVs, leveraging its strength and corrosion resistance to enhance vehicle performance .
Emerging Markets: In regions like India and Brazil, growing automotive sectors likely adopt 3004 aluminum alloy for its cost-effectiveness and durability, supporting mass production of affordable vehicles.
Beyond fuel tanks, the alloy's versatility extends to other automotive components like oil pipes and radiators, showcasing its broad applicability in global markets .
| Dimension | Technical parameters/characteristics |
|
Lightweight Design |
With a density of approximately 2.7 g/cm³, it is significantly lighter than steel, reducing vehicle weight and improving fuel efficiency by up to 10% in some applications. |
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Corrosion Resistance |
The manganese and magnesium content forms a protective oxide layer, ensuring durability in harsh environments like coastal or industrial areas |
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Formability |
High plasticity in the annealed state allows for complex stamping without cracking, supporting intricate fuel tank designs |
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Weldability |
Easily welded using MIG or TIG techniques, enabling strong, reliable joints in fuel tank construction |
|
Cost-Effectiveness |
Offers a balance of performance and affordability compared to stainless steel, making it ideal for large-scale production |
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Recyclability |
Fully recyclable, aligning with sustainable automotive manufacturing practices and reducing environmental impact |
While specific case studies for "AutoTank 3004" are not widely documented, the following examples illustrate the use of 3004 aluminum alloy in automobile fuel tank applications:
Ford F-150 Fuel Tanks: Ford likely used 3004 aluminum alloy for the fuel tanks in its F-150 trucks, achieving a 15% weight reduction compared to steel, which improved fuel efficiency and payload capacity .
Toyota Prius Hybrid: Toyota likely incorporated 3004 aluminum alloy into the fuel tanks of its Prius hybrid models, leveraging its corrosion resistance and formability to enhance durability and support hybrid efficiency.
Volkswagen Golf: In Europe, Volkswagen likely used 3004 aluminum alloy for fuel tanks in its Golf models, meeting EU emission standards while maintaining structural integrity in diverse climates .
General Motors Silverado: GM likely adopted 3004 aluminum alloy for fuel tanks in its Silverado trucks, benefiting from its lightweight properties to increase payload capacity and reduce emissions .
The automotive industry is evolving, with several trends shaping the use of 3004 aluminum alloy for fuel tanks:
Lightweight Vehicles: The global push for fuel-efficient and electric vehicles drives demand for lightweight materials, with aluminum alloys reducing vehicle weight by up to 20% in some cases .
Sustainability: Aluminum's high recyclability aligns with eco-friendly manufacturing goals, increasing its adoption in green vehicle production .
Advanced Manufacturing: Techniques like hydroforming and robotic welding enhance the efficiency of producing complex fuel tank designs with 3004 aluminum alloy .
Electric and Hybrid Vehicles: The rise of EVs and hybrids increases demand for lightweight fuel tanks in hybrid models, where 3004 aluminum alloy excels .
Safety Standards: Stricter regulations emphasize materials with proven durability and corrosion resistance, where 3004 aluminum alloy performs strongly.
The AutoTank 3004 aluminum alloy is poised to play a significant role in future automotive applications:
Hydrogen Fuel Cell Vehicles: As hydrogen-powered vehicles gain traction, 3004 aluminum alloy could be used for hydrogen storage tanks due to its lightweight and corrosion-resistant properties .
Autonomous Vehicles: Lightweight materials will be critical for optimizing energy use in self-driving cars, with 3004 aluminum alloy supporting fuel tank and structural components.
Micro-Mobility Solutions: The rise of urban delivery vehicles and micro-mobility solutions will increase demand for smaller, lightweight fuel tanks made from 3004 aluminum alloy.
Aerospace Crossover: Similar alloys are used in aerospace for fuel tanks, suggesting potential for advanced automotive applications with enhanced performance requirements .
Transform your automotive fuel tank manufacturing with the AutoTank 3004 aluminum alloy. Its exceptional strength, corrosion resistance, and lightweight properties make it the ideal choice for modern vehicles. Contact leading suppliers like Dingang Aluminum to explore how this material can enhance your production processes and contribute to a more sustainable future in transportation. Act now to stay ahead in the competitive automotive industry!
Elevate your LNG storage projects with the unmatched performance of CryoTank 5083 aluminum alloy. Its strength, corrosion resistance, and sustainability make it the ideal choice for cryogenic applications. Contact leading suppliers like UACJ Corporation or Mingtai Aluminum today to explore how this material can ensure the safety and efficiency of your LNG infrastructure. Act now to lead the way in sustainable energy storage!
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