Alloy 6063 Aluminium Extrusion Profiles For Construction

Alloy 6063 Aluminium Extrusion Profiles For Construction

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Loading Port:: Qingdao

Payment Terms:: TT OR LC

Min Order Qty:: 2 m.t.

Supply Capability:: 50000 m.t./month

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Item specifice

Grade:

2000 Series,5000 Series,6000 Series,7000 Series,3000 Series

Surface Treatment:

Anodized,Polished,Mill Finish,Color Coated,Oxidized,Enameled Wire,Brushed,Composited

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

Product Name	Alloy 6063 Aluminium Extrusion Profiles For Construction
Alloy	Al 6063 T5 /T6 or 6061 T4/T6 or as customers' need
Surface	Aluminum profiles of mill finish, powder coating, anodizing, polishing, sand blasting, electrophoresis and wood color.
Profile shape	According to drawings or re-design as requested or market needs.
Price	Based on Aluminum Ingot Price + Process fee
Payment term	T/C T/T 30% deposit and 70% pay against copy of B/L
Certificate	ISO9001 ISO14001
Warranty	1. GB5237-2008 equal to EN12020-1.2(2001); 2. Within 15 years without powder peeling off;

Alloy 6063 Aluminium Extrusion Profiles For Construction

Product Advantages

1. Plenty of surface treatments for your choice, for example oxidation, electrophoresis and static powder coating, etc.

2. Strict control for surface finish, very little scratch.

3. Accurate mold as well as accurate size.

4. Standard alloy composition

5. Both ends of the profiles are very plain and with no burr.

FAQ

1. What is your main product?

We can supply the aluminium complete system, including aluminum billets, aluminum profile for windows and doors, aluminum for curtain wall, alumimun framwork, and kinds of aluminum windows and doors.

2. What’s your price?

The price is based on buyer's specific requirement, so please provide below information to help us quote exact price to you.

3. What is your payment term?

30% - 50% down payment, the balance payment against, and L/C is available.

Q:How can the aluminum profile T6 and T5 be distinguished?: Mechanical properties are inconsistent, T5 tensile strength is 160 MPa; T6 tensile strength is 215 mpa. (normally determined by this method) do a tensile test and you'll see

Q:Aluminum profile 606360056061, T5 and T6 hardness GB, how much?: Generally divided into Vivtorinox hardness, Rockwell hardness and Vickers hardness and webster hardness. Our enterprises are generally in accordance with webster hardness test, GB 6063-T5 8HW 6063-T6 11.5HW6005-T5 15HW 6005-T6 15HW6061-T5 15HW 6061-T6 15HWIf you need other hardness units, you can refer to the conversion

Q:How are aluminum shapes made?: 3, color (mainly about the oxidation process here first oxidation): extrusion Aluminum Alloy profiles well, its corrosion resistance is not strong, should be to increase the aluminum corrosion resistance, wear resistance and surface by anodic oxidation surface treatment of the appearance of the. The main process is as follows: (1) surface pretreatment: chemical or physical methods are used to clean the surface of the profile and expose the pure matrix to obtain a complete and compact artificial oxide film. The mirror or non light (Ya Guang) surface can also be obtained by mechanical means. (2) anodizing: the surface of the pre processed profiles, in a certain process conditions, the substrate surface anodic oxidation, resulting in a dense, porous, strong adsorption of AL203 film. (3) sealing: the pore space of the porous oxide film produced by anodic oxidation is closed, so that the oxidation film is anti pollution, and the corrosion resistance and wear resistance are enhanced. The film is colorless and transparent, with strong adsorption before sealing film, adsorption and deposition of metal salts in some membrane hole, can make the profile appearance character (silver) show many colors, except such as: black, bronze, golden color and stainless steel etc..

Q:Can aluminum profiles be used for soundproofing or acoustic applications?: Indeed, soundproofing or acoustic applications can make use of aluminum profiles. Aluminum is renowned for its remarkable ability to dampen sound, rendering it a perfect material choice for constructing sound barriers or enclosures. Its robust structural properties and capacity to either absorb or reflect sound waves effectively diminish noise transmission. Moreover, aluminum profiles can be readily tailored and manufactured into various forms and dimensions to cater to specific acoustic needs. Whether employed in walls, partitions, doors, or enclosures, aluminum profiles play a significant role in reducing sound transfer and creating a more tranquil and pleasant atmosphere.

Q:What are the different types of fasteners used for aluminum profiles?: There are several types of fasteners that are commonly used for aluminum profiles: 1. T-slot nuts: T-slot nuts are designed to fit into the T-slot grooves of aluminum profiles. They have a threaded hole that allows for the attachment of bolts, screws, or other fasteners. 2. Bolts and screws: Bolts and screws are used to secure aluminum profiles together or to other components. They come in a variety of lengths and sizes to accommodate different applications. 3. Corner brackets: Corner brackets are used to create strong joints between aluminum profiles at right angles. They typically have holes for screws or bolts, allowing for easy attachment. 4. T-bolts: T-bolts are similar to regular bolts, but they have a T-shaped head that fits into the T-slot grooves of aluminum profiles. This allows for quick and secure attachment without the need for nuts or additional hardware. 5. Angle brackets: Angle brackets are used to create joints between aluminum profiles at different angles. They typically have holes for screws or bolts, making it easy to secure the profiles together. 6. Clamps: Clamps are used to hold aluminum profiles in place or to attach them to other components. They come in various designs, such as lever clamps or eccentric clamps, and can be easily adjusted and tightened for a secure fit. 7. End caps: End caps are used to cover the ends of aluminum profiles, providing a finished look and protecting the profile from debris or damage. These are just a few examples of the different types of fasteners used for aluminum profiles. The choice of fastener will depend on the specific application and the desired level of strength and versatility.

Q:Are aluminum profiles suitable for use in medical device manufacturing?: Yes, aluminum profiles are suitable for use in medical device manufacturing. Aluminum is a widely used material in various industries, including medical device manufacturing, due to its excellent properties. Firstly, aluminum profiles are lightweight yet strong, making them ideal for medical devices that require both durability and portability. The lightweight nature of aluminum profiles allows for easier handling and reduces the overall weight of the medical equipment, which can be beneficial for healthcare professionals and patients. Secondly, aluminum is corrosion-resistant, which is crucial in medical device manufacturing. Medical devices often come into contact with liquids, chemicals, and bodily fluids, which can lead to corrosion and degradation over time. However, aluminum profiles have excellent resistance to corrosion, ensuring the longevity and reliability of the medical devices. Additionally, aluminum profiles can be easily formed into complex shapes and designs, allowing for customization and versatility in medical device manufacturing. This flexibility in design enables the production of devices that meet specific requirements, ensuring the best possible functionality and usability for medical professionals and patients. Furthermore, aluminum is non-toxic and non-magnetic, making it suitable for medical applications where these properties are essential. Aluminum profiles do not pose any health risks or interfere with magnetic resonance imaging (MRI) or other sensitive medical procedures. In conclusion, aluminum profiles are highly suitable for use in medical device manufacturing due to their lightweight, corrosion-resistant, customizable, non-toxic, and non-magnetic properties. These factors contribute to the production of high-quality, durable, and safe medical devices that meet the demanding needs of the healthcare industry.

Q:How do aluminum profiles perform in terms of weather resistance?: Aluminum profiles exhibit excellent weather resistance due to their inherent corrosion resistance properties. They are highly resistant to rust, rot, and degradation caused by exposure to various weather conditions like rain, sunlight, and extreme temperature changes. Additionally, aluminum profiles can be further enhanced with protective coatings or finishes to enhance their durability and longevity in outdoor environments.

Q:What are the different welding options available for aluminum profiles?: Aluminum profiles offer several welding options, each with its own advantages and considerations. The following are the most common methods used: 1. Tungsten Inert Gas (TIG) Welding: TIG welding is widely utilized for aluminum. By using a non-consumable tungsten electrode, it creates a weld while an inert gas shields the area from contamination. TIG welding provides precise control over heat input, resulting in high-quality welds. It is ideal for thin aluminum profiles, giving a clean appearance. However, it can be time-consuming and requires skilled operators. 2. Metal Inert Gas (MIG) Welding: MIG welding, also known as Gas Metal Arc Welding (GMAW), is another popular method for aluminum profiles. It involves a consumable wire electrode that continuously feeds into the weld pool, while an inert gas shield protects the area. MIG welding is faster than TIG welding and suitable for thin and thick aluminum profiles. However, it may produce more spatter and requires proper preparation and selection of shielding gas. 3. Friction Stir Welding (FSW): Friction stir welding is a solid-state joining process that utilizes a rotating tool to generate heat and mechanically stir the aluminum profiles together. FSW is particularly suitable for thick aluminum profiles, offering high joint strength, fatigue resistance, and minimal distortion. However, it necessitates specialized equipment and may not be applicable to all profile shapes. 4. Laser Beam Welding (LBW): Laser beam welding employs a highly concentrated laser beam to melt and join aluminum profiles. It creates a narrow and deep weld with minimal heat input, resulting in low distortion and high welding speeds. LBW is suitable for both thin and thick profiles, but it requires costly equipment and skilled operators. 5. Resistance Spot Welding (RSW): Resistance spot welding utilizes electrical current and pressure to create welds by melting and joining aluminum profiles at specific points. RSW is commonly used for thin aluminum profiles, providing high productivity and repeatability. However, it requires access to both sides of the profiles and may leave visible marks on the surface. To determine the most suitable welding method for your aluminum profile project, it is crucial to consider specific requirements such as profile thickness, joint type, appearance, and production volume. Seeking advice from a welding professional or engineer can ensure the best choice for your specific application.

Q:Can aluminum profiles be used in the construction of stadium seating systems?: Yes, aluminum profiles can be used in the construction of stadium seating systems. Aluminum is a lightweight and durable material that is commonly used in various construction applications, including stadium seating systems. It offers several advantages such as corrosion resistance, high strength-to-weight ratio, and ease of fabrication. Aluminum profiles can be easily customized and assembled to create seating structures that are strong, stable, and visually appealing. Additionally, aluminum's lightweight nature allows for easier installation and transportation, making it a cost-effective choice for stadium seating systems. Overall, aluminum profiles are a suitable option for constructing stadium seating systems due to their strength, durability, and versatility.

Q:How do you protect aluminum profiles from scratching or damage?: There are several ways to protect aluminum profiles from scratching or damage. Firstly, applying a protective coating or finish is a common method. This can be done by using paints, lacquers, or powder coatings that create a barrier between the aluminum surface and external elements. These coatings not only enhance the appearance but also provide protection against scratches, corrosion, and other damages. Secondly, using protective film or tape is an effective temporary solution. These films or tapes can be applied directly onto the aluminum profiles, acting as a protective layer. These films are often transparent and can be easily peeled off once the profiles are installed or ready for use. Another technique is to handle and transport the aluminum profiles with care. This involves using proper handling equipment, such as gloves, to avoid direct contact with the surface. Additionally, using protective packaging materials, such as bubble wrap or foam, can provide cushioning during transportation to prevent scratches or dents. It is also important to regularly clean and maintain the aluminum profiles. Dust, dirt, and debris can act as abrasives and cause scratches over time. Regularly cleaning with a soft cloth or sponge and mild detergent can help remove these particles and maintain the profile's appearance. Lastly, implementing proper storage techniques is crucial. Storing aluminum profiles in a dry and clean environment, away from sharp objects or heavy items, can minimize the risk of scratching or damage. Using racks or shelves with protective padding can also provide an additional layer of protection. By following these measures, aluminum profiles can be effectively protected from scratching or damage, ensuring their longevity and maintaining their aesthetic appeal.

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