Aluminum PVDF Coated Mill Finished AW-3003 Aluminium Coils
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 5 m.t.
- Supply Capability:
- 1000 m.t./month
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Specification
1. Structure of EN AW-3003 Mill Finished PVDF Coated Aluminium Coils Description
EN AW-3003 Mill Finished PVDF Coated Aluminium Coils is one semi-finished aluminium material. The alloy AA3003 is widly used in building, industry ect. Its weight is much lower than steel. So many customers choosed aluminium material instead of steel.
2. Specification of EN AW-3003 Mill Finished PVDF Coated Aluminium Coils
EN AW-3003 Mill Finished PVDF Coated Aluminium Coils | |
Main Specification | |
Alloy | AA1xxx (AA1050, AA1060, AA1070, AA1100 etc.) |
AA3xxx (AA3003, AA3004, AA3005, AA3105 etc.) | |
AA5xxx, AA6XXX (AA5052,AA5083, AA5754, AA6061, AA6062 etc.) | |
AA8xxx(AA8011, AA8006 etc.) | |
Temper | H14,H16, H18, H22, H24, H26, H32,O/F, T4, T6, T651 |
Thickmess | 0.01mm-100mm |
Width | 30mm-1700mm |
Standard | GB/T 3880-2006/ASTM |
Special specification is available on customer's requirement | |
3. Application of EN AW-3003 Mill Finished PVDF Coated Aluminium Coils
(1).Interior: wall cladding, ceilings, bathrooms, kitchens and balconies, shutters, doors...
(2).Exterior: wall cladding, facades, roofing, canopies, tunnels,column covers , renovations...
(3).Advertisement: display platforms, signboards, fascia, shop fronts...
4. Feature of EN AW-3003 Mill Finished PVDF Coated Aluminium Coils
Surfact Quality :
Be free from Oil Stain, Dent, Inclusion, Scratches, Stain, Oxide Dicoloration, Breaks, Corrosion, Roll Marks, Dirt Streaks and other defect which will interfere with use,
Mechenical Property:
Chemical Composite and Mechanical Property
5. Certificate of EN AW-3003 Mill Finished PVDF Coated Aluminium Coils
SGS and ROHS(if client request, paid by client), MTC(plant provided), Certificate of Origin(FORM A, FORM E, CO), Bureau Veritas and SGS (if client request, paid by client), CIQS certificate
6. Image of EN AW-3003 Mill Finished PVDF Coated Aluminium Coils
7. Package and shipping of EN AW-3003 Mill Finished PVDF Coated Aluminium Coils
First, plastic cloth with drying agent inside; Second, Pearl Wool ; Third, wooden cases with dry agent , fumigation wooden pallets, aluminum surface could cover blue PVC film
8. FAQ
1) What is the delivery time?
Depends on actual order, around 20 to 35 days
2) What is the QC system:
We have QC staff of 20 persons and advanced equipment, each production is with MTC traced from Aluminum ingot lot.
3) What market do you mainly sell to?
Australia, America, Asia, Middle East, Western Europe, Africa etc
- Q: This question asks for an enumeration of different types of aluminum alloys.
- <p>Aluminum alloys are categorized based on their primary alloying elements and their applications. Some common types include: 1) 1000 series (99% pure aluminum), 2) 2000 series (alloyed with copper), 3) 3000 series (alloyed with manganese), 4) 4000 series (alloyed with silicon), 5) 5000 series (alloyed with magnesium), 6) 6000 series (alloyed with magnesium and silicon), and 7) 7000 series (alloyed with zinc). These alloys have various properties, making them suitable for different industries such as aerospace, automotive, and construction.</p>
- Q: This question asks about the chemical reactions of aluminum with acids and alkalis under various conditions.
- <p>Aluminum reacts differently with acids and alkalis depending on the specific environment. In the presence of acids, such as hydrochloric or sulfuric acid, aluminum undergoes a redox reaction where it loses electrons and forms aluminum ions (Al^3+). The reaction can be represented as: 2Al + 6HCl 鈫?2AlCl鈧?+ 3H鈧? With alkalis, aluminum reacts to form aluminate ions and hydrogen gas. This reaction is represented as: 2Al + 2NaOH + 6H鈧侽 鈫?2NaAl(OH)鈧?+ 3H鈧? The rate of these reactions can be influenced by factors such as temperature, concentration, and the presence of catalysts.</p>
- Q: What are the various applications of aluminum oxide in different industries and daily life?
- <p>Aluminum oxide, also known as alumina, has a wide range of applications due to its hardness and other properties. It is used as an abrasive in products like sandpaper and grinding wheels. In the electronics industry, it serves as a substrate for semiconductor devices. It's also a key component in the production of aluminum metal through the Hall-H茅roult process. In the medical field, aluminum oxide is used in dental materials and as an antiperspirant. Additionally, it's found in cosmetics, ceramics, and as a catalyst in various chemical processes.</p>
- Q: Is it possible to utilize aluminum as a material for automotive construction?
- <p>Yes, aluminum is commonly used in cars. It is valued for its lightweight properties, which can improve fuel efficiency and reduce emissions. Aluminum is used in various parts of a vehicle, including engine components, body panels, and suspension systems. Its high strength-to-weight ratio and resistance to corrosion make it an ideal material for automotive applications.</p>
- Q: What is the chemical formula that represents aluminum?
- <p>The chemical formula for aluminum is Al. It is a lightweight, silvery-white metal that is found in the Earth's crust and is the most abundant metal there. Aluminum is a member of the boron group of chemical elements and is represented by the symbol Al, which is derived from the Latin word 'alumen', meaning alum.</p>
- Q: What is the primary application of aluminum in various industries and everyday life?
- <p>Aluminum is most commonly used in the manufacturing of cans and packaging materials due to its lightweight, corrosion resistance, and recyclability. It is also extensively used in construction for window frames, roofing, and facades. In transportation, aluminum is a key material in the production of vehicles, particularly in the aerospace industry for aircraft and automotive industry for car bodies, due to its strength-to-weight ratio. Additionally, it is used in electrical components and electronics due to its good conductivity and malleability.</p>
- Q: Explain the process by which aluminum forms alloys.
- <p>Aluminum forms alloys by combining with other elements, such as copper, magnesium, silicon, manganese, and zinc, among others. This process involves melting aluminum and the alloying elements together in a furnace. The molten mixture is then cooled and solidified to form an alloy. The resulting alloy has properties that are different from pure aluminum, such as increased strength, corrosion resistance, and improved machinability. The specific properties of the alloy depend on the elements added and their proportions. Alloying allows for the customization of aluminum's characteristics to suit various applications in industries like aerospace, automotive, and construction.</p>
- Q: This question asks about the potential health advantages of using food packaging materials that do not contain aluminum.
- <p>Yes, using aluminum-free food packaging materials can have several health benefits. Aluminum has been linked to potential health risks such as Alzheimer's disease, although the evidence is not conclusive. By eliminating aluminum, there is a reduced risk of exposure to this potentially harmful element. Additionally, aluminum-free packaging can be beneficial for individuals with allergies to aluminum. It also supports environmental sustainability as some aluminum-free alternatives are biodegradable, reducing the environmental impact of packaging waste. Overall, choosing aluminum-free packaging can contribute to a safer and healthier lifestyle.</p>
- Q: Is aluminum capable of functioning as a catalyst in chemical reactions?
- <p>Aluminum is not typically used as a catalyst in chemical reactions. Catalysts are substances that increase the rate of a chemical reaction without being consumed in the process. Aluminum, being a metal, does not have the properties necessary to act as a catalyst in most reactions. However, it can be used in certain reactions as a reducing agent or in the form of organoaluminum compounds, which may participate in catalytic processes, but these are not common applications.</p>
- Q: This question asks for a comparison between aluminum and magnesium, two common metallic elements, highlighting their differences.
- <p>Aluminum and magnesium are both lightweight metals with distinct properties. Aluminum is more abundant in the Earth's crust and is known for its high strength-to-weight ratio, making it ideal for construction and transportation. It is also a good conductor of heat and electricity. Magnesium, while also lightweight, is less dense and has a lower melting point than aluminum. It is highly reactive and is often used in alloys to increase strength and durability. Magnesium is also essential for biological processes and is commonly found in supplements. In terms of reactivity, magnesium is more reactive than aluminum, which makes it more prone to corrosion in certain environments.</p>
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Aluminum PVDF Coated Mill Finished AW-3003 Aluminium Coils
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 5 m.t.
- Supply Capability:
- 1000 m.t./month
OKorder Service Pledge
OKorder Financial Service
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