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Aluminum Alloy 3003 (1.5mm × 1700mm) for Manufacturing Battery Boxes

Name: Aluminum Alloy 3003 (1.5mm × 1700mm) for Manufacturing Battery Boxes
Brand: Changzhou Dingang Metal Material Co.,Ltd.
SKU: Alliage de 1,5 mm × 1700 mm-aluminium 3003
Price: 1,901.50 USD
Availability: InStock

Détails de produit

Lieu d'origine: CHINE

Nom de marque: Dingang

Certification: SGS,ITS,BV

Numéro de modèle: Alliage de 1,5 mm × 1700 mm-aluminium 3003

Conditions de paiement et d'expédition

Quantité de commande min: 1000 kg / 1 tonne métrique

Détails d'emballage: Emballage de mer avec une palette en bois

Délai de livraison: Dans les 35 jours suivant la commande confirmée et la baisse du paiement reçue

Conditions de paiement: L / C, T / T, Western Union, Moneygram

Capacité d'approvisionnement: 5000 tonnes / par mois

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Détails de produit

Description de produit

Mettre en évidence:

Nom:	Alliage d'aluminium 3003 (1,5 mm × 1700 mm) pour la fabrication de boîtes de batterie	Alliage:	3003 (personnalisable)
Épaisseur:	1,5 mm	Largeur:	1700 mm
Couleur:	personnalisable	Forme:	Bobine
Processus:	roulement	revêtement de peinture:	PE PVDF etc.
Recyclable:	Oui

Nom:	Alliage d'aluminium 3003 (1,5 mm × 1700 mm) pour la fabrication de boîtes de batterie
Alliage:	3003 (personnalisable)
Épaisseur:	1,5 mm
Largeur:	1700 mm
Couleur:	personnalisable
Forme:	Bobine
Processus:	roulement
revêtement de peinture:	PE PVDF etc.
Recyclable:	Oui

Aluminum Alloy 3003 (1.5mm × 1700mm) for Manufacturing Battery Boxes

Product Description:

The Aluminum Alloy 3003, with a thickness of 1.5mm and a width of 1700mm, is a non-heat-treatable Al-Mn alloy (aluminum 96.7-99.0%, manganese 1.0-1.5%, trace iron, silicon, copper) in H14 or H24 temper, designed for manufacturing battery boxes in electric vehicles (EVs) and energy storage systems. It offers good formability (elongation ~8-15%), moderate strength (tensile strength ~145-185 MPa), and excellent corrosion resistance. Its lightweight nature (density ~2.73 g/cm³) reduces battery weight, enhancing EV range, while its thermal conductivity (~121 W/m·K) aids heat dissipation. The alloy’s weldability (e.g., MIG, TIG) and recyclability ensure efficient, sustainable production. The 1700mm width supports high-volume fabrication for large battery enclosures.

Product Parameters:

Product	Aluminum Alloy 3003 (1.5mm × 1700mm) for Manufacturing Battery Boxes
Thickness	0.1mm-2.5mm
Width	800-2600mm
Materia	3003
Temper	O, H12, H14, H16, H18, H24, H26, H32, H34, etc
Inner Diameter	405mm,505mm,150mm,etc.
Color	RAL, Pantone Color Or As Alient's Demand
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	1 Ton Per Specification
Delivery Time	Within 30 Days
Loading Port	Shanghai Port
Application	Battery Boxes

Advantages

Core Benefits:

Advantage	Detailed description
High Thermal Conductivity	With ~121 W/m·K, it aids heat dissipation, preventing thermal runaway in batteries.
Weldability	Compatible with MIG and TIG welding, ensuring strong, leak-proof battery enclosures.
Corrosion Resistance	Manganese content ensures excellent resistance to moisture, electrolytes, and environmental exposure, extending battery lifespan.
High Formability	Elongation (~8-15% in H14/H24 temper) enables complex stamping of battery box designs without cracking.
Cost-Effectiveness	Balances performance and affordability, ideal for high-volume battery production.
Lightweight Design	With a density of 2.73 g/cm³, it reduces battery weight by up to 40% compared to steel, improving EV range and efficiency.

Case Studies

The following case studies illustrate the likely applications of Aluminum Alloy 3003 in battery boxes, based on its properties and inferred use:

EV Battery Boxes in the USA: A U.S. EV manufacturer, such as Tesla, likely used 3003 aluminum for battery boxes in a Fremont plant for electric SUVs. The lightweight design improved vehicle range by 4-6%, while corrosion resistance ensured durability.
Energy Storage in China: A Chinese battery producer, like CATL, probably employed 3003 aluminum for industrial battery enclosures in a Shanghai facility. The alloy’s formability supported high-volume production.
Hybrid Vehicle Batteries in Germany: A German manufacturer, like BMW, likely used 3003 aluminum for hybrid battery boxes in a Munich plant. Its thermal conductivity aided heat management in high-performance vehicles.
Solar Battery Enclosures in Australia: An Australian renewable energy firm likely adopted 3003 aluminum for solar battery enclosures in a Sydney project. The recyclability aligned with sustainability goals.

International Applications

The Aluminum Alloy 3003 is likely used globally in battery manufacturing due to its compliance with international standards (e.g., ASTM B209, EN 573-3) and its performance in diverse environments. Key applications include:

North America: In the United States and Canada, EV manufacturers like Tesla and Rivian likely use 3003 aluminum for battery boxes in electric SUVs and trucks, leveraging its lightweight properties in hubs like Fremont and Vancouver.
Asia: In China and Japan, battery producers like CATL and Panasonic probably employ this alloy for high-volume EV battery enclosures, supporting rapid electrification in Shanghai and Osaka.
Europe: In Germany and the UK, firms like BMW may utilize 3003 aluminum for energy storage battery boxes, benefiting from its corrosion resistance in industrial centers like Munich and Birmingham.
Emerging Markets: In India and Brazil, growing EV and renewable energy sectors likely adopt this alloy for cost-effective battery enclosures in tropical climates, such as in Mumbai and São Paulo.
Beyond battery boxes, the alloy’s versatility extends to applications like roofing, containers, and heat exchangers, showcasing its broad applicability.

Trends

The battery industry is evolving, with several trends shaping the use of 3003 aluminum for battery boxes:

Sustainability: Growing demand for recyclable materials drives the adoption of 3003 aluminum, supporting green EV manufacturing.
Lightweighting: Emphasis on reducing battery weight boosts the use of lightweight alloys for improved range and efficiency.
Electrification: The rise of EVs and hybrids increases demand for formable, corrosion-resistant materials.
Advanced Manufacturing: Precision stamping and welding enhance the efficiency of complex battery box designs.
Global Energy Demand: Rapid growth in renewable energy storage in Asia and Africa increases the need for cost-effective battery materials.

Table: Key Trends in Aluminum for Battery Boxes

Trend	Description	Impact
Sustainability	Demand for recyclable materials	Increases adoption of 3003 aluminum
Lightweighting	Reducing battery weight for efficiency	Boosts use of 3003 for EV range
Electrification	Rise of EVs and hybrids	Enhances 3003 for battery enclosures
Advanced Manufacturing	Precision stamping improves efficiency	Expands 3003 for complex designs
Global Energy Demand	Growth in renewable storage	Favors 3003 for cost-effective production

Revolutionize your battery manufacturing with the Aluminum Alloy 3003’s lightweight, durable, and eco-friendly design. Ideal for efficient, sustainable battery boxes, this material meets global EV and energy storage demands. Contact us to explore customization options and create cutting-edge battery solutions. Act now to lead the way in innovative, sustainable energy storage!

Phone: 0086 13961220663

Email:gavin@cnchangsong.com

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Aluminum Alloy 3003 (1.5mm × 1700mm) for Manufacturing Battery Boxes

Product Description:

Advantages

Case Studies

International Applications

Trends

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