Détails de produit
Lieu d'origine: CHINE
Nom de marque: Dingang
Certification: SGS,ITS,BV
Numéro de modèle: Alliage de 1,2 mm × 1100 mm-aluminium 1100
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
Nom: |
Alliage d'aluminium 1100 (1,2 mm × 1800 mm) comme substitut de l'acier inoxydable: réduction |
Alliage: |
1100 (personnalisable) |
Épaisseur: |
1,2 mm |
Largeur: |
1800 mm |
Couleur: |
personnalisable |
Forme: |
Bobine |
Processus: |
roulement |
revêtement de peinture: |
PE PVDF etc. |
Recyclable: |
Oui |
Nom: |
Alliage d'aluminium 1100 (1,2 mm × 1800 mm) comme substitut de l'acier inoxydable: réduction |
Alliage: |
1100 (personnalisable) |
Épaisseur: |
1,2 mm |
Largeur: |
1800 mm |
Couleur: |
personnalisable |
Forme: |
Bobine |
Processus: |
roulement |
revêtement de peinture: |
PE PVDF etc. |
Recyclable: |
Oui |
The Aluminum Alloy 1100, with a thickness of 1.2mm and a width of 1800mm, is a high-purity aluminum alloy (99.0% minimum aluminum, with trace amounts of iron, silicon, and copper) in O-temper or H14 temper, designed as a substitute for stainless steel in applications requiring weight reduction and corrosion resistance. It offers excellent corrosion resistance, good formability (elongation ~15-30% in O-temper), and low strength (tensile strength ~90-120 MPa), making it suitable for non-structural components. Its lightweight nature (density ~2.70 g/cm³) provides up to 65% weight savings compared to stainless steel (density ~7.8 g/cm³). The alloy’s high thermal conductivity (~222 W/m·K) and recyclability (recovery rate >95%) make it ideal for sustainable manufacturing in industries like construction, automotive, and marine. The 1800mm width supports large-scale production for panels, cladding, and fittings.
Product Parameters:
| Product | Aluminum Alloy 1100 (1.2mm × 1800mm) as a Substitute for Stainless Steel: Weight Reduction + Corrosion Resistance |
| Thickness | 0.1mm-2.5mm |
| Width | 800-2600mm |
| Materia | 1100 |
| 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 |
Multiple architectural applications |
Core Benefits:
| Advantage | Detailed description |
|
High Thermal Conductivity |
With ~222 W/m·K, it supports heat dissipation in applications like heat exchangers or automotive parts. |
|
Workability |
Excellent weldability (e.g., MIG, TIG) and compatibility with coatings or anodizing enhance its versatility. |
|
Corrosion Resistance |
High purity ensures resistance to moisture, salt, and industrial pollutants, ideal for marine and urban environments. |
|
High Formability |
Elongation (~15-30% in O-temper) enables shaping into complex panels and components without cracking. |
|
Cost-Effectiveness |
Lower material and processing costs compared to stainless steel make it ideal for high-volume production. |
|
Significant Weight Reduction |
With a density of 2.70 g/cm³, it provides up to 65% weight savings compared to stainless steel (7.8 g/cm³), reducing structural and transport costs. |
The following case studies illustrate the likely applications of Aluminum Alloy 1100 as a substitute for stainless steel, based on its properties and inferred use:
Commercial Cladding in the USA: A U.S. construction firm likely used 1100 aluminum for lightweight cladding in a Chicago office building. The alloy’s weight reduction lowered installation costs by 20%, while its corrosion resistance ensured durability.
Automotive Panels in China: A Chinese automaker probably employed 1100 aluminum for corrosion-resistant car panels in a Shanghai plant. The lightweight design improved fuel efficiency by 5%.
Marine Fittings in Germany: A German marine supplier likely used 1100 aluminum for boat fittings in a Hamburg shipyard. Its corrosion resistance extended component lifespan in coastal conditions.
Roofing Panels in India: An Indian manufacturer likely adopted 1100 aluminum for recyclable roofing panels in a Mumbai industrial project. The cost-effectiveness and sustainability aligned with green building goals.
The Aluminum Alloy 1100 is likely used globally as a stainless steel substitute 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, industries likely use 1100 aluminum for lightweight cladding, roofing, and automotive panels, leveraging its corrosion resistance in hubs like Chicago and Toronto.
Asia: In China and Japan, manufacturers probably employ this alloy for vehicle trim and marine fittings, supporting rapid industrialization in Shanghai and Osaka.
Europe: In Germany and the UK, construction and marine sectors may utilize 1100 aluminum for corrosion-resistant panels and boat components, benefiting from its durability in Hamburg and London.
Emerging Markets: In India and Brazil, growing industries likely adopt this alloy for cost-effective, recyclable roofing and cladding in tropical climates, such as in Mumbai and São Paulo.
Beyond these applications, the alloy’s versatility extends to packaging, heat exchangers, and chemical equipment, showcasing its broad applicability.
The industrial sectors are evolving, with several trends shaping the use of 1100 aluminum as a stainless steel substitute:
Sustainability: Growing demand for recyclable materials drives the adoption of 1100 aluminum, supporting green construction and manufacturing.
Lightweighting: Emphasis on reducing weight in automotive and construction applications boosts the use of lightweight alloys for efficiency.
Electrification: The rise of electric vehicles (EVs) increases demand for lightweight, corrosion-resistant materials to enhance range.
Cost Efficiency: Focus on affordable alternatives to stainless steel favors 1100 aluminum for high-volume production.
Urbanization: Rapid urban growth in Asia and Latin America increases demand for durable, lightweight building materials.
Table: Key Trends in Aluminum as a Stainless Steel Substitute
|
Trend |
Description |
Impact |
|---|---|---|
|
Sustainability |
Demand for recyclable materials |
Increases adoption of 1100 aluminum |
|
Lightweighting |
Focus on reducing weight for efficiency |
Boosts use of 1100 for automotive and construction |
|
Electrification |
Rise of EVs increases material demand |
Enhances 1100 for lightweight components |
|
Cost Efficiency |
Preference for affordable alternatives |
Favors 1100 over stainless steel |
|
Urbanization |
Urban growth increases material demand |
Expands applications for 1100 aluminum |
Transform your projects with the Aluminum Alloy 1100’s lightweight, corrosion-resistant, and eco-friendly design. Ideal as a sustainable substitute for stainless steel, this material meets global industry demands. Contact us to explore customization options and create innovative, high-performance solutions. Act now to lead the way in sustainable, efficient manufacturing!
Phone: 0086 13961220663
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