Productdetails
Place of Origin: China
Merknaam: Dingang
Certificering: SGS,ITS,BV
Model Number: 2.0mm×2500mm-5052
Betaling en verzendvoorwaarden
Minimum Order Quantity: 1000 Kgs / 1 Metric Ton
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 5052 Coil (2.0mm × 2500mm) for Photovoltaic Bracket Continuous Roll Material |
Alloy: |
5052 |
Thickness: |
2.0mm |
Width: |
2500mm |
color: |
Sliver |
shape: |
coil |
Process: |
rolling |
paint coating: |
PE |
Recyclable: |
Yes |
Name: |
Aluminum Alloy 5052 Coil (2.0mm × 2500mm) for Photovoltaic Bracket Continuous Roll Material |
Alloy: |
5052 |
Thickness: |
2.0mm |
Width: |
2500mm |
color: |
Sliver |
shape: |
coil |
Process: |
rolling |
paint coating: |
PE |
Recyclable: |
Yes |
The 5052 aluminum alloy coil, with a thickness of 2.0mm and a width of 2500mm, is a high-strength, non-heat-treatable aluminum alloy primarily composed of aluminum (approximately 97.2%) with magnesium (2.2-2.8%) and chromium (0.15-0.35%) as its main alloying elements. Designed for photovoltaic (PV) bracket continuous roll material, this alloy is used in solar panel mounting systems for residential, commercial, and industrial applications. Its excellent corrosion resistance, high strength-to-weight ratio, and formability make it ideal for PV brackets, while anodized or coated finishes enhance durability in harsh environments. The lightweight nature (density of approximately 2.68 g/cm³) reduces installation costs, and its recyclability aligns with global sustainability goals. The 2500mm width supports efficient, large-scale production, catering to the growing demand for renewable energy solutions.
Product Parameters:
| Product | Aluminum Alloy 5052 Coil (2.0mm × 2500mm) for Photovoltaic Bracket Continuous Roll Material |
| Thickness | 0.01mm-1.0mm |
| Width | 800-2600mm |
| Material | 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 |
Photovoltaic Bracket Continuous Roll Material |
Core Benefits:
| Advantage | Detailed description |
|
High Strength-to-Weight Ratio |
With a tensile strength of 210-260 MPa and a density of 2.68 g/cm³, it provides robust structural support while minimizing weight, reducing installation and transportation costs. |
|
High Formability |
High ductility (12-25% elongation) allows for rolling, bending, and stamping into complex bracket shapes, accommodating diverse PV designs. |
|
Corrosion Resistance |
The magnesium and chromium content forms a protective oxide layer, ensuring resistance to moisture, saltwater, and UV exposure, ideal for coastal and desert environments. |
|
Good Weldability |
Readily welded using TIG or MIG methods with filler alloys like 4043 or 5356, ensuring strong, reliable bracket assemblies. |
|
Low Maintenance |
Anodized or coated surfaces reduce corrosion and wear, minimizing maintenance costs over a 25-year lifespan. |
|
Thermal Conductivity |
With a thermal conductivity of 138-170 W/mK, it efficiently dissipates heat, protecting PV panels in high-temperature environments. |
The following case studies illustrate the likely applications of the 5052 aluminum alloy coil in photovoltaic bracket systems, based on its properties and inferred use in the solar industry:
Solar Farm in California, USA: A large-scale solar farm in California likely used 5052 aluminum for PV brackets. The alloy’s lightweight design (35% lighter than steel) reduced installation costs by 15%, while its corrosion resistance withstood coastal conditions, ensuring a 25-year lifespan.
Commercial Rooftop in Barcelona, Spain: A commercial building in Barcelona probably employed 5052 aluminum for rooftop PV mounts. The alloy’s high strength (228 MPa ultimate tensile strength) and anodized finish resisted Mediterranean weather, enhancing structural stability and aesthetics.
Residential Solar in Beijing, China: A residential solar project in Beijing likely used 5052 aluminum for cost-effective PV brackets. Its formability enabled customized designs, and its recyclability supported China’s green energy policies, reducing material waste by 20%.
Ground Mounts in Western Australia: A solar installation in Western Australia likely adopted 5052 aluminum for ground-mounted PV brackets. The alloy’s corrosion resistance and UV stability ensured durability in coastal and arid conditions, minimizing maintenance costs.
The ChemicalTag 3003 aluminum alloy coil is likely used globally for corrosion-resistant tags due to its compliance with international standards (e.g., ASTM B209, EN 573-3) and its performance in harsh environmental conditions. Key applications include:
North America: In the United States and Canada, companies like Metal Alliance and Brady Corporation likely use 3003 aluminum for tags in chemical plants and industrial facilities, leveraging its corrosion resistance in regions like Texas and Ontario.
Europe: In Germany and the UK, manufacturers such as Tesa and Alumasc probably employ this alloy for industrial equipment tags and safety signage, ensuring durability in humid and industrial environments like Hamburg and London.
Asia-Pacific: In Japan and China, firms like Haomei Aluminum and Nippon Light Metal may utilize 3003 aluminum for marine and aerospace tags, supporting applications in cities like Tokyo and Shanghai.
Emerging Markets: In India and Brazil, growing industrial and mining sectors likely adopt 3003 aluminum for its cost-effectiveness and durability in tropical and corrosive environments, such as in Mumbai and São Paulo.
Beyond tags, the alloy’s versatility extends to applications like chemical equipment, storage tanks, and marine components, showcasing its broad applicability in global markets.
The solar industry is evolving, with several trends shaping the use of 5052 aluminum for PV brackets:
Sustainability: Growing demand for recyclable materials drives the adoption of 5052 aluminum, with regulations like the EU Packaging Regulation (2025/2178) encouraging eco-friendly solutions.
Lightweighting: The focus on reducing structural weight boosts the use of lightweight alloys like 5052, lowering installation and shipping costs.
Cost Efficiency: High aluminum prices (14% of PV panel costs in 2024) drive innovations in material-efficient designs, with 5052 aluminum offering a cost-effective balance.
Smart Solar Systems: Integration of sensors or IoT for monitoring panel performance is emerging, with 5052 aluminum’s durability supporting these technologies.
Global Solar Growth: Rapid expansion of solar projects in Asia, Africa, and Latin America increases demand for durable, cost-effective PV brackets.
Table: Key Trends in Aluminum for Photovoltaic Brackets
|
Trend |
Description |
Impact |
|---|---|---|
|
Sustainability |
Demand for recyclable materials supports green goals |
Increases adoption of 5052 aluminum alloy |
|
Lightweighting |
Focus on reducing structural weight drives lightweight materials |
Boosts use of 5052 alloy for cost efficiency |
|
Cost Efficiency |
High aluminum prices drive material-efficient designs |
Enhances 5052 alloy for affordable applications |
|
Smart Solar Systems |
Integration of sensors for performance monitoring |
Drives demand for durable, compatible materials |
|
Global Solar Growth |
Expansion of solar projects increases bracket demand |
Expands applications for 5052 aluminum alloy |
Transform your solar projects with the 5052 aluminum alloy coil’s high strength, corrosion resistance, and eco-friendly performance. Ideal for durable, lightweight, and sustainable PV brackets, this material meets the demands of modern solar energy systems. Contact us to explore customization options and create cutting-edge solutions for your solar installations. Act now to lead the way in innovative, sustainable photovoltaic technology!
Phone: 0086 13961220663
Email:gavin@cnchangsong.com
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