5083 H321 Aluminium Alloy Plate for Ship Industry

5083 H321 Aluminium Alloy Plate for Ship Industry

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Loading Port:: Shanghai

Payment Terms:: TT OR LC

Min Order Qty:: 5 m.t.

Supply Capability:: 5000 m.t./month

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5083 H321 Aluminium Alloy Plate for Ship Industry

Packaging & Delivery

Product Specification
Grade	1000 Series: 1050 1060 1100 3000 Series: 3003 3004 3105 5000 Series: 5052 5605,5083 6000 Series: 6061 6063 8000 Series: 8011 8021 8079
Thickness	0.20-8.00mm
Width	2400mm max.
Grade	1000,3000,5000,6000,8000series
Coil ID	75mm, 150mm, 200mm, 300mm, 400mm, 508mm or negotiable
Coil weight	1000-5000kgs
Coil OD	1700mm max.
Temper	O, H12, H14, H16, H111, H22 ,H24, H26, H28,T4, T6,etc.

Temper
F	processing state
H	strain hardening state
O	annealing
T	heat treatment state
H112	pure state of strain hardening, adjustment has been made to degree of strain hardening and annealing
T4	solid solution treatment and natural efficiency to achieve sufficient stability condition
T5	artificial aging condition of the reentry after high temperature thermal cooling
T6	artificial aging state after solid solution treatment

Chemical Composition
Grade	Si	Fe	Cu	Mn	Mg	Cr	Ni	Zn	Al
1050	0.25	0.4	0.05	0.05	0.05	-	-	0.05	99.5
1060	0.25	0.35	0.05	0.03	0.03	-	-	0.05	99.6
1070	0.2	0.25	0.04	0.03	0.03	-	-	0.04	99.7
1100	Si+Fe:0.95		0.05-0.2	0.05	-	-	0.1	-	99
1200	Si+Fe:1.00		0.05	0.05	-	-	0.1	0.05	99
1235	Si+Fe:0.65		0.05	0.05	0.05	-	0.1	0.06	99.35
3003	0.6	0.7	0.05-0.2	1.0-1.5	-	-	-	0.1	remains
3004	0.3	0.7	0.25	1.0-1.5	0.8-1.3	-	-	0.25	remains
3005	0.6	0.7	0.25	1.0-1.5	0.20-0.6	0.1	-	0.25	remains
3105	0.6	0.7	0.3	0.30-0.8	0.20-0.8	0.2	-	0.4	remains
3A21	0.6	0.7	0.2	1.0-1.6	0.05	-	-	0.1	remains
5005	0.3	0.7	0.2	0.2	0.50-1.1	0.1	-	0.25	remains
5052	0.25	0.4	0.1	0.1	2.2-2.8	0.15-0.35	-	0.1	remains
5083	0.4	0.4	0.1	0.40-1.0	4.0-4.9	0.05-0.25	-	0.25	remains
5154	0.25	0.4	0.1	0.1	3.1-3.9	0.15-0.35	-	0.2	remains
5182	0.2	0.35	0.15	0.20-0.50	4.0-5.0	0.1	-	0.25	remains
5251	0.4	0.5	0.15	0.1-0.5	1.7-2.4	0.15	-	0.15	remains
5754	0.4	0.4	0.1	0.5	2.6-3.6	0.3	-	0.2	remains
6061	0.40-0.8	0.7	0.15-0.40	0.15	0.8-1.2	0.04-0.35	-	0.25	remains
6063	0.20-0.6	0.35	0.1	0.1	0.45-0.9	0.1	-	0.1	remains
6082	0.7-1.3	0.5	0.1	0.40-1.0	0.6-1.2	0.25	-	0.2	remains
6A02	0.50-1.2	0.5	0.20-0.6	Or Cr0.15-0.35	0.45-0.9	-	-	0.2	remains
8011	0.50-0.9	0.6-1.0	0.1	0.2	0.05	0.05	-	0.1	remains

5083 H321 Aluminium Alloy Plate for Ship Industry

Q:Why does fillet appear when rolling aluminum coil?: How thick and wide is it when there is such problem? Which is the rolling pass? And what is the type of the rolling mill? The simple 4 rollers or CVC and HC rolling mill with roller control. Does the filler appear in rolling or out of roller? Different thickness will lead to different analysis.

Q:Are aluminum coils suitable for insulation jacketing?: Indeed, insulation jacketing can be effectively achieved with aluminum coils. Renowned for their exceptional thermal properties, durability, and resistance to corrosion, aluminum coils are a highly favored choice for jacketing material. They find extensive application across diverse industries such as HVAC, oil and gas, and petrochemical, where they serve to insulate pipe systems and equipment. By enveloping insulation materials, aluminum coils play a crucial role in safeguarding against moisture infiltration and sustaining thermal efficiency. Moreover, their lightweight composition ensures effortless installation and transportation. Ultimately, aluminum coils emerge as a dependable and efficient solution for insulation jacketing endeavors.

Q:Can aluminum coils be used for HVAC systems?: Yes, aluminum coils can be used for HVAC systems. They are commonly used due to their durability, resistance to corrosion, and efficiency in transferring heat.

Q:Are aluminum coils suitable for architectural louvers?: Yes, aluminum coils are suitable for architectural louvers. Aluminum is a popular choice for louvers due to its excellent corrosion resistance, lightweight nature, and high strength-to-weight ratio. Aluminum coils can be easily formed and fabricated into various shapes and sizes, making them ideal for creating aesthetically pleasing and functional louvers. Additionally, aluminum's durability ensures that the louvers can withstand harsh weather conditions and maintain their structural integrity over time. Overall, aluminum coils are a reliable and versatile material for architectural louvers.

Q:How do aluminum coils contribute to energy efficiency?: Aluminum coils contribute to energy efficiency in several ways. Firstly, aluminum is a highly conductive metal, which means it can efficiently transfer heat. When used in HVAC systems, aluminum coils help in the efficient transfer of heat between the air and the refrigerant, allowing for quicker cooling or heating of the space. Secondly, aluminum coils are lightweight and have a high strength-to-weight ratio. This characteristic makes them easier to handle and install, reducing the overall weight of the HVAC system. The reduced weight not only makes transportation and installation more efficient but also reduces the load on the building structure. Furthermore, aluminum coils are durable and corrosion-resistant. This longevity ensures that the HVAC system operates smoothly over an extended period, minimizing the need for frequent repairs or replacements. As a result, less energy is wasted on maintaining or replacing components, leading to better energy efficiency. Additionally, aluminum is a recyclable material, and using aluminum coils in HVAC systems promotes sustainability. The recycling process for aluminum requires significantly less energy compared to producing new aluminum, thus reducing the overall carbon footprint and energy consumption. Lastly, aluminum coils are often manufactured with enhanced fin designs and advanced technology, such as microchannel coils. These innovations increase the surface area of the coil, improving heat transfer efficiency and reducing the energy required for cooling or heating. Overall, aluminum coils contribute to energy efficiency by facilitating efficient heat transfer, reducing system weight, promoting durability, supporting sustainability through recycling, and incorporating advanced technology to enhance heat exchange.

Q:How many 1220mm*2440mm aluminum sheets can one-ton aluminum coil be sliced to? Thank you.: You should know the thickness of aluminum sheet first, and then calculate the weight of aluminum sheet of this specification, and finally use 1T divide the weight.

Q:What are the different width tolerances for aluminum coils?: The width tolerances of aluminum coils may differ based on specific requirements and industry standards. Typically, the range of tolerances is between +/- 0.005 inches and +/- 0.25 inches. Nevertheless, the intended use of the aluminum coils may necessitate stricter requirements or more lenient tolerances in certain applications. To ascertain the precise width tolerances for a particular application, it is vital to refer to the manufacturer's specifications and guidelines or industry standards.

Q:I go on a trip once a year with a group of lets say 10 people, we go for 7 nights and consume on average approx 120 cans of beer each (throughout the week). We have a fire burning the whole time in a hole that we dig approx 1ft deep, then we dispose of each can in the fire and let them melt down never thinking about them again. That's approx 1,200 cans that melt in the one fire hole.Will the aluminum have an affect on the soil? does anyone know what sort of damage this can cause? and for what distance / area around the fire might be affected?The theory amongst the group is that cans do not hurt anything so that's why they take cans instead of glass.Thanks: Aluminum is very reactive in air and will form a layer of aluminum oxide around the outside of any piece. This oxide layer is very stable which is why aluminum doesn't corrode. Since your block of aluminum will be totally oxidized being in a fire, it's inert and just going to sit in the hole for the foreseeable future. The burning paint might not be healthy to breath but that's about the only hazard. Most common soil is a mixture of aluminum, carbon and silica compounds anyways so you aren't even adding anything particularly exotic. Alternatively, you could bring along a couple fifths of whiskey. It's lighter and has less packaging so it's the environmentally friendly way to get drunk.

Q:What are the different types of surface treatments for corrosion resistance?: Various materials can benefit from different surface treatments to enhance their resistance to corrosion. These treatments can be grouped into mechanical, chemical, and electrochemical methods. 1. To improve corrosion resistance, mechanical surface treatments involve physically altering or modifying the material's surface. Shot peening, sandblasting, and polishing are common methods. Shot peening induces compressive stresses by bombarding the material with small metal pellets, preventing corrosion. Sandblasting removes existing corrosion and creates a clean, smooth surface by blasting it with abrasive particles. Polishing, using abrasives, creates a smooth, reflective surface that reduces the chances of corrosion initiation. 2. Chemical surface treatments involve applying a chemical solution or coating to create a protective layer against corrosion. Chromating, for example, applies a chromate conversion coating that acts as a barrier against corrosion and improves adhesion for subsequent paint or coating layers. Anodizing, commonly used for aluminum surfaces, creates a thick oxide layer that enhances corrosion resistance and can provide decorative finishes. Other chemical treatments, like phosphating, passivation, and galvanizing, use specific chemical solutions or coatings to protect against corrosion. 3. Electrochemical surface treatments utilize electrochemistry principles to create a protective layer. Electroplating involves depositing a thin layer of a more corrosion-resistant material, such as zinc, nickel, or chromium, onto the base material's surface. Anodic protection connects a sacrificial anode to the material, causing the anode to corrode instead of the material itself. This method is commonly used for underground structures and pipelines. The choice of surface treatment for corrosion resistance depends on factors like the material, intended application, and desired level of protection. It is crucial to consider factors like cost, environmental impact, and performance requirements when selecting the appropriate treatment, as each method has its advantages and limitations.

Q:Can aluminum coils be used in the production of lighting fixtures?: Indeed, the utilization of aluminum coils is viable in the manufacturing process of lighting fixtures. Being both lightweight and durable, aluminum qualifies as an exceptional metal that effectively resists corrosion, rendering it an ideal preference for the production of lighting fixtures. With the ability to be effortlessly manipulated and molded into diverse configurations and dimensions, aluminum coils can readily accommodate the precise requisites of lighting fixtures. Moreover, aluminum boasts remarkable thermal conductivity, facilitating efficient dissipation of heat within lighting fixtures, guaranteeing optimum performance and durability. In summary, aluminum coils furnish a cost-efficient and adaptable resolution for the production of lighting fixtures.

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