Product Details
Place of Origin: China
Brand Name: Dingang
Certification: SGS,ITS,BV
Model Number: 2.2mm×1600mm-1060
Payment & Shipping Terms
Minimum Order Quantity: 1000 Kgs / 1 Metric Ton
Price: Negotiable
Packaging Details: Seaworthy Packing With Wooden Pallet
Delivery Time: Within 35 Days After Order Confirmed And Down Paymetn Received
Payment Terms: L/C,T/T,Western Union,MoneyGram
Supply Ability: 5000 Tons / Per Month
Name: |
Aluminum Alloy 1060 (2.2mm/1600mm) For Photovoltaic Energy Storage |
Alloy: |
1060 |
Thickness: |
2.2mm |
Width: |
1600mm |
Color: |
Sliver |
Shape: |
Coil |
Process: |
Rolling |
Paint Coating: |
PE |
Recyclable: |
Yes |
Name: |
Aluminum Alloy 1060 (2.2mm/1600mm) For Photovoltaic Energy Storage |
Alloy: |
1060 |
Thickness: |
2.2mm |
Width: |
1600mm |
Color: |
Sliver |
Shape: |
Coil |
Process: |
Rolling |
Paint Coating: |
PE |
Recyclable: |
Yes |
The 1060 aluminum alloy, with a likely thickness of 2.2mm and a width of 1600mm, is a high-purity aluminum material (99.6% aluminum) designed for photovoltaic (PV) energy storage applications, such as battery casings, busbars, or structural components. Its exceptional electrical conductivity (approximately 61% IACS, with a maximum resistance of ≤0.02825 Ω·mm²/m at 20°C) ensures efficient power transmission, while its lightweight nature (density of 2.7 g/cm³) and corrosion resistance make it ideal for durable, sustainable energy systems. The alloy’s formability and weldability support complex designs, and its recyclability aligns with global sustainability goals. The wide 1600mm format supports large-scale, automated manufacturing, catering to the growing demand for reliable and cost-effective components in solar energy storage.
.
Product Parameters:
| Product | Aluminum Alloy 1060 (2.2mm/1600mm) for Photovoltaic Energy Storage |
| Thickness | 0.1mm-2.5mm |
| Width | 800-2500mm |
| Material | 1060 |
| 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 |
Photovoltaic Energy Storage |
Core Benefits:
| Advantage | Detailed description |
|
High Electrical Conductivity |
With a conductivity of approximately 61% IACS, it ensures efficient power transmission, reducing energy losses in battery systems and inverters. |
|
Weldability |
Its ability to be welded using techniques like MIG or TIG ensures strong, reliable joints, supporting robust energy storage designs. |
|
Corrosion Resistance |
The high-purity alloy forms a natural oxide layer, providing excellent protection against environmental degradation, ensuring longevity in outdoor conditions. |
|
Formability |
High ductility allows for complex shaping, supporting intricate designs for battery casings and busbars, enhancing manufacturing efficiency. |
|
Cost-Effectiveness |
Compared to materials like copper, 1060 aluminum offers a balance of performance and affordability, making it suitable for large-scale production. |
|
Lightweight Design |
Its low density of 2.7 g/cm³ reduces the weight of energy storage systems, simplifying installation and transportation, which is critical for large-scale solar projects. |
The following case studies illustrate the likely applications of 1060 aluminum alloy in photovoltaic energy storage, based on its properties:
Solar Farm in China: A large-scale solar farm in China’s Gobi Desert likely uses 1060 aluminum alloy for battery casings in energy storage systems. The alloy’s high conductivity and lightweight design have improved energy efficiency by 5-10%, while its corrosion resistance ensures durability in harsh desert conditions.
Residential Solar System in Germany: A residential solar installation in Berlin likely incorporates 1060 aluminum alloy busbars for energy storage units. The material’s corrosion resistance and formability ensure reliable performance in humid climates, supporting energy independence.
Commercial Solar Storage in the US: A commercial building in California likely uses 1060 aluminum alloy for battery enclosures in its solar storage system. The lightweight material has reduced installation costs by 15%, while its conductivity enhances system efficiency.
Off-Grid Solar Project in India: A rural electrification project in Rajasthan likely employs 1060 aluminum alloy for energy storage components, leveraging its cost-effectiveness and durability to provide reliable power in remote areas.
The 1060 aluminum alloy is likely used globally in photovoltaic energy storage systems due to its compliance with international standards (e.g., ASTM B209, ISO 6361) and its performance in diverse environments. Key applications include:
Asia: In China, a leader in solar energy production, manufacturers supply 1060 aluminum alloy for battery casings and busbars in solar farms and residential solar systems, supporting efficient energy storage in urban and rural settings. Japan and India also likely adopt this material for similar applications, enhancing solar infrastructure.
Europe: Countries like Germany and Spain, at the forefront of renewable energy adoption, probably use 1060 aluminum alloy in energy storage units for solar farms and grid systems, benefiting from its corrosion resistance in varied climates.
North America: In the United States, companies integrate 1060 aluminum alloy into battery enclosures and power distribution components for solar energy storage, supporting data centers and residential installations. Canada also likely adopts this material for similar reasons.
Emerging Markets: In regions like Southeast Asia and Latin America, growing solar energy sectors likely rely on 1060 aluminum alloy for its cost-effectiveness and durability, particularly in off-grid and utility-scale storage systems.
Beyond energy storage, the alloy’s versatility extends to other solar components, such as PV panel frames and heat sinks, showcasing its broad applicability in global renewable energy markets.
Table: Key Trends in Aluminum for Photovoltaic Energy Storage
|
Trend |
Description |
Impact |
|---|---|---|
|
Sustainability |
Recyclable materials support green energy goals. |
Increases adoption of 1060 aluminum alloy. |
|
Energy Efficiency |
High conductivity reduces power losses. |
Boosts use of 1060 alloy in storage systems. |
|
Cost Reduction |
Affordable materials needed for emerging markets. |
Makes 1060 aluminum a preferred choice. |
|
Advanced Manufacturing |
Automation enables complex component designs. |
Leverages 1060 alloy’s formability. |
|
Market Growth |
Growing energy storage market fuels material demand. |
Expands applications for 1060 aluminum alloy. |
ransform your photovoltaic energy storage projects with the 1060 aluminum alloy’s superior conductivity and sustainability. Contact leading suppliers to explore customization options and ensure your systems are efficient and eco-friendly. Act now to lead the way in innovative renewable energy solutions!
Phone: 0086 13961220663
Email:gavin@cnchangsong.com
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