Metapor Aluminum Sheets - Five Bars Embossed Corrugated

Metapor Aluminum Sheets - Five Bars Embossed Corrugated System 1

Metapor Aluminum Sheets - Five Bars Embossed Corrugated

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Loading Port:: Shanghai

Payment Terms:: TT OR LC

Min Order Qty:: 5 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

Product Description

Thickness: more than 0.006mm
Width: less than 2600mm
Temper: All

Five Bars Embossed Corrugated Aluminum Sheet

1. Embossed aluminum sheet, which possesses beautiful appearances and many advantages

2. such as skid-resistance, enhanced performance and saving materials etc.

3. has a wide range of applications from transportation, construction and decoration to device floor, mechanism and shipbuilding etc. Embossed aluminum is an advantage product of our company.

Category	Variety	Alloy	Temper	Size		Application
Category	Variety	Alloy	Temper	Thickness	Width	Application
Aluminum sheet	Serie 3 boards	3003	O,H12,H14,H16, H18,H22,H24,H26	0.3-4.0	200-1500	Regular board, anodized products,etc
Aluminum sheet	Serie 5 boards	5052 5754 5083	O,F,H111,H112, H32,H34,H36,H38	0.2-4.0	200-1500	Equipment cabinet,bakclights,electronic devices,transportations,etc
Aluminum Strip	Series 1 strip	1100 1050	O,H12,H14,H16, H18,	0.2-4.0	30-1500	Architecture and interior decor heart-pressure containers,etc
	Serie 3 strips	3003 3004 3104	O,H12,H14,H16, H18,H22,H24,H26	0.2-4.0	30-1500	Regular board, anodized products,high-pressure containers,ceiling and roofing products,etc
	Serie 5 strips	5052 5754 5083	O,F,H111,H112, H32,H34,H36,H38, H14,H16,H18	0.2-4.0	30-2000	Equipment cabinet,bakclights,electronic devices,transportations,etc
	Hot rolled coild strips	5052 5754	F,H112	4.0-10.0	30-2000	Raw materials
Aluminum Foil	Decorative boards	1100	O,H12,H14,H16, H18,	0.015-0.8	1240	Architecture and interior decor heart-pressure containers,etc
Thickness Aluminum Plate	Hot rolled thick boards	5052 5754 5083 6061	O,F,H111,H112, H32,H34,	4.0-1500	800-2000	Engineering moulds
Lid material products	Lid material materials	5182 5052 8011	H19	0.22-0.29	200-1600	lids
Cans material products	Cans materials	3104	H19	0.28-0.35	400-1660	Cans
PS substrate	PS substrate	1050 1070	H18	0.2-0.5	400-1660	Printing
Aluminum circle/disk	Round chips	3003 3105	O,H12,H14,H16,H18,	1.0-5.0	200-490	High pressure cookers and containers
Mirror aluminum	Mirror Aluminum	1050 1060 1070 3003	H14,H24,H16,H18	0.1-3.0	334-1250	Decorations and sign and lighting devices etc
Mirror aluminum	Cobblestone Embossed Aluminum	1050 1060 1070 3003	H14,H24,H16,H18	0.1-3.0	334-1250	Decorations,light and ship
Brushed Aluminum	Brushed Aluminum	1100 1050 1060 1070	H18,H26	0.06-3.0	200-1600	Aluminum formed boards,aluminum composite panels,interior decor,electronic devices,etc
Tread Aluminum sheet	one bar,three bars,five bars,diamond aluminum sheet	1060 1100 3003 5052	O,H12,H14,H16, H18,H22,H24,H26	>1.0	200-1500	Decorations,bus floor,ship and anti-skid facility

Five Bars Embossed Corrugated Aluminum Sheet

Q: do recycling centers take already compacted aluminum cans? Link is below. if not then why are so many people making homemade can crushers?: Aluminium is one of the most and best recyclable material. I'm sure they do.

Q: Is it possible to utilize aluminum sheets for crafting distinctive architectural structures?: <p>Yes, aluminum sheets can be used to create unique architectural designs. Known for their strength, durability, and lightweight properties, aluminum sheets are ideal for various architectural applications. They can be easily shaped and cut to fit specific design requirements, offering flexibility in design and construction. Additionally, aluminum's resistance to corrosion and weathering makes it a sustainable choice for long-lasting structures. Architects often use aluminum for facades, roofing, and other exterior elements due to its modern aesthetic and low maintenance needs.</p>

Q: What are the different methods of surface embossing aluminum sheets?: There are several different methods of surface embossing aluminum sheets, each with its own unique process and outcome. Some of the most commonly used methods include: 1. Mechanical Embossing: This method involves using mechanical tools, such as rollers or presses, to create patterns or designs on the surface of the aluminum sheet. The sheet is passed through the rollers or pressed against a patterned surface, which impresses the design onto the metal. Mechanical embossing is often used for creating repetitive patterns, such as diamond or checkerplate patterns. 2. Chemical Embossing: This technique involves using chemical etching or engraving to create patterns on the aluminum sheet. A chemical solution is applied to the surface of the metal, which selectively etches away the desired areas, leaving behind the embossed pattern. Chemical embossing allows for more intricate and detailed designs to be created on the aluminum sheet. 3. Heat Embossing: Heat embossing is a method that involves using heat to create embossed designs on the aluminum sheet. A heated die or stamp is pressed against the surface of the metal, causing it to deform and create the desired pattern. Heat embossing is commonly used for creating raised logos or text on aluminum sheets. 4. Laser Embossing: Laser embossing utilizes laser technology to create embossed designs on aluminum sheets. A laser beam is directed onto the surface of the metal, vaporizing or melting away the desired areas to create the embossed pattern. Laser embossing offers high precision and allows for the creation of intricate and complex designs. 5. Roll Embossing: Roll embossing is a method where the aluminum sheet is passed through a series of engraved rolls, which impress the desired pattern onto the metal. Each roll has a different pattern or design, allowing for a variety of embossed finishes to be achieved. Roll embossing is commonly used for creating textured or decorative finishes on aluminum sheets. Overall, the different methods of surface embossing aluminum sheets provide a range of options for creating unique and visually appealing designs. The choice of method depends on the desired outcome, complexity of the design, and the specific requirements of the project.

Q: What is the dielectric strength of aluminum sheets?: The dielectric strength of aluminum sheets is typically around 20-30 kilovolts per millimeter (kV/mm).

Q: Can aluminum sheets be anodized for corrosion protection?: Aluminum sheets have the capacity to undergo anodization in order to safeguard against corrosion. Anodizing initiates an electrochemical reaction that generates a safeguarding oxide layer on the aluminum's surface. This protective oxide layer exhibits exceptional resistance against corrosion and provides a robust and enduring shield. Various aluminum products, including sheets, can be subjected to anodizing to elevate their resistance against corrosion, enhance their aesthetic appeal, and prolong their lifespan. The anodizing process entails immersing the aluminum sheet in an electrolyte solution and applying an electric current, enabling oxygen ions to bond with the metal's surface and establish the safeguarding oxide layer. Anodized aluminum sheets are extensively employed in vital industries such as aerospace, automotive, construction, and electronics, where corrosion resistance is of paramount importance.

Q: Are aluminum sheets suitable for cryogenic applications?: Yes, aluminum sheets are suitable for cryogenic applications. Aluminum has excellent thermal conductivity and low thermal expansion, which allows it to withstand extreme cold temperatures and maintain its structural integrity. Additionally, aluminum has a low density and is lightweight, making it a practical choice for cryogenic applications where weight reduction is important. Aluminum also has good corrosion resistance, further enhancing its suitability for cryogenic environments. Overall, aluminum sheets are a reliable and cost-effective option for various cryogenic applications, such as in aerospace, cryogenic storage tanks, and cryogenic research facilities.

Q: What are the different methods of heat treating aluminum sheet?: There are several methods of heat treating aluminum sheet, each with its own purpose and desired outcome. Some of the common methods include: 1. Solution Heat Treatment: This process involves heating the aluminum sheet to a specific temperature, typically between 900-1000°F (480-540°C), and holding it at that temperature for a set amount of time. This helps dissolve any soluble alloying elements present in the aluminum, resulting in a more uniform structure. 2. Quenching: After the solution heat treatment, the aluminum sheet is rapidly cooled by quenching in water, oil, or air. This rapid cooling helps lock in the desired microstructure and properties, such as increased strength and hardness. 3. Aging: Once quenched, the aluminum sheet is subjected to an aging process, which involves heating it to a lower temperature, typically between 250-450°F (120-230°C), and holding it there for a specific duration. This allows for the precipitation of fine particles within the aluminum matrix, improving its strength and hardness even further. 4. Precipitation Hardening: This method is used for certain aluminum alloys, such as 2000 and 7000 series, which respond well to precipitation hardening. It involves a combination of solution heat treatment, quenching, and aging, resulting in a highly strengthened and durable aluminum sheet. 5. Annealing: Annealing is a heat treatment process used to soften the aluminum sheet and relieve any internal stresses. It involves heating the sheet to a specific temperature, usually around 600-700°F (315-370°C), and then slowly cooling it. This helps improve the formability and machinability of the aluminum. 6. Stress Relieving: This method is similar to annealing but is specifically used to reduce residual stresses in the aluminum sheet after fabrication. It involves heating the sheet to a temperature below its annealing temperature and then slowly cooling it. Overall, the choice of heat treatment method for aluminum sheet depends on the desired properties, alloy composition, and intended application. Each method offers distinct advantages and can significantly enhance the mechanical and physical properties of the aluminum sheet.

Q: Can aluminum sheets be used for chemical distillation columns?: Aluminum sheets are indeed applicable in chemical distillation columns. Due to its remarkable thermal conductivity, resistance to corrosion, and lightweight properties, aluminum is widely favored for constructing distillation columns. It is especially suitable for situations where process conditions are relatively gentle, like low-pressure distillation or distillation of non-reactive substances. Nonetheless, it is crucial to acknowledge that aluminum might not be suitable for all chemical distillations, specifically those involving corrosive or reactive substances. In such instances, alternative materials such as stainless steel or glass-lined steel may be more suitable to guarantee the durability and integrity of the column.

Q: when aluminum metal undergoes a combination reaction with O2(g): Aluminium metal combines with the oxygen from the air on heating to form aluminium oxide. The reaction can be represented using a balanced equation as 4 Al (s) + 3O2(g) = 2Al2O3(s)