Aluminum Plain Sheets for Marine Manufactured in China
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT or LC
- Min Order Qty:
- 3 m.t.
- Supply Capability:
- 9000 m.t./month
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Specification
Grade:
1000 Series,3000 Series,4000 Series,5000 Series,6000 Series,7000 Series,2000 Series
Surface Treatment:
Coated,Embossed,Anodized,Polished,Mill Finish,Color Coated,Oxidized,Enameled Wire,Brushed,Printed,Composited,Holographic Impression,Sand Blasted,Powder Coating
Shape:
Angle,Square,T-Profile,Round,Flat,Rectangular,Oval,Hexagonal
Temper:
T3-T8,O-H112,T351-T651,T351-T851,Soft,Half Hard,Hard
Application:
Liner & Wad,Decorations,Door & Window,Heat Sink,Transportation Tools,Glass Wall,Food,Kitchen Use,Pharmaceutical,Seal & Closure,Insulation Material,Label & Tag
| Aluminum Coil/Sheet | ||||||||
| Main Specification | ||||||||
| Alloy | AA1xxx (AA1050, AA1060, AA1070, AA1100 etc.) | |||||||
| AA3xxx (AA3003, AA3004, AA3005, AA3105 etc.) | ||||||||
| AA5xxx AA6XXX (AA5052,AA5083, AA5754 , 6061, 6063 etc.) | ||||||||
| AA8xxx(AA8011, AA8006 etc.) | ||||||||
| Temper | H14,H16, H18, H22, H24, H26, H32,O/F | |||||||
| Thickmess | 0.01mm-100mm | |||||||
| Width | 22mm-2200mm | |||||||
| Standard | GB/T 3880-2006/ASTM | |||||||
| Special specification is available on customer's requirement | ||||||||
Product Description
1.Tolerance: thickness tolerance +/-1.5%, width tolerance +/-1mm
2.Application and Usage:
Building Material , Insulation, Shoes &Tents Eyes,Corner Beads,Automotive Industrial, POP Can Bottle and Cap,Deep-Proceeding Case,light industry, TV back board,Street Sign, PP caps, Cell mask and so on.
3.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,
4.Mechenical Property:
Chemical Composite and Mechanical Property could meet the requirements of GB/T, ASTM, ENAW, JIS Standard
5.Packing: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
6.Certificate: ISO9001:2008, 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
7.Month Capacity: 20000MT/Month
8.Trade Terms: EXW,FOB,CIF,CNF
9.Payment: T/T or L/C at sight
Quality :
We are one of the largest aluminum producer in China, and we also use of aluminum coils, sheet, circles, embossed coil etc.
We have produced aluminum sheet over 20 years, and we have good reputation of the price and quality in North part of China.
- Q: What are the different methods of joining aluminum sheets?
- Aluminum sheets can be joined using a variety of methods, each with its own benefits and suitability for specific applications. These methods include: 1. Welding: Tungsten Inert Gas (TIG) welding, Metal Inert Gas (MIG) welding, and Resistance Spot Welding (RSW) are all techniques that can be used to join aluminum sheets. TIG welding is commonly chosen for thin sheets due to its precise control and high-quality results. MIG welding, on the other hand, is faster and more suitable for thicker sheets. RSW creates strong welds in a short amount of time by using localized heat and pressure. 2. Adhesive bonding: Adhesive bonding involves using specially designed adhesives for joining aluminum. This method provides excellent strength, even distribution of stress, and corrosion resistance. It is often utilized in applications where aesthetics and weight reduction are important, such as in the automotive and aerospace industries. 3. Mechanical fastening: Mechanical fastening methods, such as riveting and bolting, can also be used to join aluminum sheets. Riveting involves deforming a rivet that passes through pre-drilled holes, while bolting uses screws or bolts. These methods are suitable for temporary or semi-permanent joints and offer easy disassembly if needed. 4. Friction stir welding: Friction stir welding is an innovative method that utilizes a rotating tool to generate frictional heat between the aluminum sheets. This creates a plasticized region that is stirred together to form a solid-state weld. Friction stir welding is particularly useful for large and complex aluminum structures, providing high strength and integrity. 5. Clinching: Clinching is a cold-forming process that joins aluminum sheets without the need for heat or additional materials. It involves pressing the sheets together, creating a mechanical interlock and a strong joint. This method is cost-effective, efficient, and suitable for joining dissimilar metals. 6. Laser welding: Laser welding involves using a high-energy laser beam to melt and fuse the aluminum sheets together. It offers precise control, minimal heat input, and high welding speeds, making it suitable for thin and delicate sheets. Laser welding also provides excellent aesthetics and minimal distortion. The choice of joining method depends on various factors, such as application requirements, material thickness, cost considerations, and desired joint strength. Each method has its own advantages and limitations, and selecting the most appropriate method is crucial to ensure a successful and durable joint.
- Q: What are the different methods of bending aluminum sheets?
- There are several methods of bending aluminum sheets, each with its own advantages and limitations. Some of the commonly used methods include: 1. Press Brake Bending: This method involves clamping the aluminum sheet between a punch and a die on a press brake machine. The sheet is then bent by applying force through the punch, which pushes against the die. Press brake bending is ideal for high-volume production and can achieve precise and consistent bends. 2. Roll Bending: Also known as a three-roll bending process, this method uses a set of three rollers to gradually bend the aluminum sheet into the desired shape. Roll bending is suitable for creating cylindrical or conical shapes and is often used in industries like automotive and aerospace. 3. Stretch Bending: In this method, the aluminum sheet is clamped at both ends while a stretching force is applied in the middle. The sheet is elongated and bent simultaneously, resulting in a curved shape. Stretch bending is commonly used for producing curved profiles with a smooth and uniform finish. 4. Heat Bending: By applying heat to the aluminum sheet, it becomes more pliable and can be easily bent into desired shapes. Heat bending is often performed using a heat gun or an oven to soften the metal, followed by manual or mechanical bending. This method is useful for creating complex and intricate shapes. 5. Incremental Bending: This method involves bending the aluminum sheet in multiple steps or increments, gradually increasing the bend angle with each step. Incremental bending allows for greater control over the bending process and is commonly used for forming U-shaped or V-shaped bends. 6. Roll Forming: In roll forming, the aluminum sheet is fed through a series of rollers, each gradually bending the sheet a little more. This continuous process is ideal for producing long and consistent bends, often used in the production of aluminum profiles and extrusions. It is worth noting that the choice of bending method depends on factors like the desired bend angle, the thickness and grade of the aluminum sheet, the required precision, and the volume of production.
- Q: Do 101 aluminum sheets have any specific certifications or standards?
- Yes, 101 aluminum sheets typically have certifications and standards that ensure their quality and performance. These may include certifications like ASTM (American Society for Testing and Materials) and standards such as AA (Aluminum Association) standards, which verify the material's composition, mechanical properties, and manufacturing processes. Additionally, specific industry certifications like ISO 9001 (International Organization for Standardization) may be applicable to ensure consistent quality control during production.
- Q: Explain how the use of aluminum sheets can impact the energy efficiency of a building.
- <p>Aluminum sheets can significantly affect a building's energy efficiency due to their excellent thermal conductivity and reflective properties. They can be used in building construction to form a barrier against heat transfer, reducing the need for heating and cooling. Additionally, aluminum's reflective surface can help in reflecting sunlight, thereby reducing heat gain in the building. However, if not properly insulated, aluminum's high conductivity can lead to heat loss, reducing energy efficiency. Therefore, the use of aluminum sheets in buildings often requires a balance between their heat-reflective and heat-conductive properties to optimize energy efficiency.</p>
- Q: I was looking at Audioque subs earlier and what is the difference between copper and aluminum coiled subs. do aluminum last longer or something?
- to maintain it common......Copper is better at removing or soaking up warmth than aluminum yet aluminum is better at dissipating it or doing away with it. i think it is why you spot aluminum CPU coolers with copper cores.
- Q: Can the aluminum sheets be used for manufacturing heat shields?
- Yes, aluminum sheets can be used for manufacturing heat shields. Aluminum is known for its excellent thermal conductivity and high heat resistance. It is commonly used in various industries, including automotive and aerospace, for manufacturing heat shields. Aluminum sheets can effectively reflect and dissipate heat, making them an ideal material for this purpose. Additionally, aluminum is lightweight and corrosion-resistant, making it a practical choice for heat shield manufacturing.
- Q: Are 101 aluminum sheets suitable for cryo-treating applications?
- Indeed, cryo-treating applications can benefit from the utilization of 101 aluminum sheets. Cryo-treating encompasses the practice of exposing materials to extremely low temperatures to enhance their strength, durability, and resistance to wear. 101 aluminum, being a commercially pure alloy, boasts exceptional corrosion resistance and favorable mechanical properties. It can endure cryogenic temperatures without experiencing considerable strength degradation or any adverse consequences. As a result, the application of 101 aluminum sheets in cryo-treating endeavors can effectively yield desired advantages and augment performance.
- Q: Are the aluminum sheets suitable for architectural applications?
- Indeed, architectural applications greatly benefit from the use of aluminum sheets. This versatile material offers a plethora of advantages for architectural projects. It boasts a lightweight composition, durability, and resistance against corrosion. Consequently, it proves itself ideal for exterior applications. The malleability of aluminum sheets allows architects to effortlessly shape, form, and manipulate them, giving rise to intricate designs and structures that bring their creative visions to life. Moreover, aluminum showcases its sustainability as a 100% recyclable material, thereby minimizing the environmental impact of architectural projects. In conclusion, the utilization of aluminum sheets in architectural applications ensures both aesthetic appeal and functional durability, making it the preferred choice for architects and designers.
- Q: Can the aluminum sheets be used in food or beverage processing industries?
- Indeed, the food and beverage processing industries can utilize aluminum sheets. This non-toxic material is extensively employed in this field owing to its exceptional characteristics. Aluminum sheets boast corrosion resistance, light weight, and commendable thermal conductivity. These attributes render them perfect for a multitude of applications in the food and beverage processing industries, including food packaging, cooking utensils, storage containers, and beverage cans. Furthermore, aluminum proves to be an environmentally friendly choice as it is recyclable, thus amplifying its appropriateness for deployment in these sectors.
- Q: It seemed in my experiment that aluminum wasn't reactive at all in the displacement reactions, except with copper sulfate. Is there a reason? or did I make a mistake? aluminum is more reactive than e.g silver nitrate, why didn't it react with it?
- Aluminium has a protective coating of Aluminium Oxide, this prevents many chemicals reaching the surface. This is because aluminium has a very strong affinity for oxygen and bonds to it with extremely strong bonds. It can be removed by dipping it carefully into a solution of Mercury (II) Chloride.
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Aluminum Plain Sheets for Marine Manufactured in China
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT or LC
- Min Order Qty:
- 3 m.t.
- Supply Capability:
- 9000 m.t./month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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