Aluminium Radiator Profiles for Industrial Use
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT or LC
- Min Order Qty:
- 1 m.t.
- Supply Capability:
- 1000 m.t./month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
You Might Also Like
Aluminium profile requirement
Item | Original Product | Alternatives |
Shape | Irregular | Round,Square,Triangle,Rectangle etc...and Customized shapes are welcome. |
Alloy | 6061 alloy | 6063,6061,6082,6060,6005,6N01,5083,5056,3003,7005,7020 Alloy etc. |
Temper | 6063 | T3,T4,T5,T6,T8 can be discussed. |
Finishing | T5 | Mill finished, Anodized, Electrophoresis, Powder coated, Painted, Sliver matt, Sand blasted, PVDF, Silkscreened etc. |
Aluminium Radiator requirement:
Item | Original Product | Alternatives |
Standard for Extrusion | GB /T5237-2000 | EN-755-2/3/6/8, BS-1474, BS 1161 |
Standard for Fabrication | GB/T1804-92 | BS 8118 |
Standard for Anodizing | GB5237.2-2004 | BS1615:1987 |
Standard for Hard Anodizing | Not required | BS5599:1993 |
Standard for Powder coating | Not required | GB5237.4-2004 |
Working/Service procedure | Die designing→Die making→Smelting&alloying→Extruding→Cutting→CNC machining→Driling→Tapping→Surface treatment→Welding→Assembling→Packing→Shipping→After Sale Service | |
Quality oriented | ISO 9001:2008 TS16949:2002 | |
Documents | Mill Certificates, RoHS, REACH(SVHC), Working Instructions, Inspection Instructions, Packing Instruction, PPAP(including Control Plan, PFMEA etc.), Unpacking/unloading Instructions for customers. | |
Packing Method | 1,Standard packing:plastic sheet wrapped for each profile in order to protect the profiles' surfaces,kraft paper wrapped in bundles. 4. EPE+carton boxes. | |
Loading Weight | 20'GP for 13tons, 40'GP for 20tons. LCL shipment will be acceptable. | |
Order,Payment and shipping terms:
Minimum Order | 300kg per trial order.One pc of sample free of charge provided by approval and kept for future mass production inspection, delivery fees on buyer. |
Production Capacity | 40,000MT/year |
Tooling | Available |
Sample Lead time | 15-18working days include 7-10days making tooling if it's necessary. |
Production lead time | 10-20working days. |
Payment term: | Tooling:100% prepaid by wire transfer. |
Shipping Term: | FOB,CIF or others can be discussed. |
- Q:Can aluminum profiles be used in lighting fixture manufacturing?
- Yes, aluminum profiles can be used in lighting fixture manufacturing. Aluminum is a commonly used material in the lighting industry due to its various beneficial properties. It is lightweight, durable, and corrosion-resistant, making it ideal for outdoor and indoor lighting fixtures. Aluminum profiles can be easily shaped and manipulated to create various designs and forms, allowing for creative and innovative lighting solutions. Additionally, aluminum profiles can be coated or anodized to enhance their aesthetic appeal and provide additional protection against wear and tear. Overall, aluminum profiles are a popular choice in lighting fixture manufacturing due to their versatility, functionality, and aesthetic appeal.
- Q:Can aluminum profiles be used for lighting fixtures or systems?
- Lighting fixtures or systems can utilize aluminum profiles. Aluminum, a lightweight and versatile material, is often chosen for constructing lighting fixtures because of its durability, resistance to corrosion, and ability to dissipate heat. Aluminum profiles can be easily shaped and sized, making them suitable for various lighting applications like recessed lighting, track lighting, pendant lighting, and more. Moreover, these profiles can be anodized or coated with different finishes to improve their visual appeal and shield them from the elements. In conclusion, incorporating aluminum profiles in lighting fixtures or systems enables efficient and effective lighting solutions while maintaining a sleek and contemporary design.
- Q:What is the nitriding process of aluminum extrusion die?
- The principle of nitridation:Gas nitrocarburizing, that is gas nitrocarburizing, refers to low temperature nitrocarburizing based on gas nitriding and carburizing. Commonly used media have 50% ammonia, +50% endothermic gas (Nitemper method); 35%-50% ammonia, +50-60% exothermic gas (Nitroc method) and ammonia through the drip ethanol or formamide and so on. In soft nitriding, because of the high solubility of carbon atoms in the epsilon phase, the soft nitrided surface is a common compound of carbon and nitrogen, which is good in toughness and wear resistant.In the process of gas nitrocarburizing, due to the extremely low solubility of carbon atoms, it quickly reaches saturation state and precipitates many super micro cementite points. These cementite particles, as the core of the crystallization of nitrides, contribute to the formation of nitrides. When the surface nitrogen concentration reaches a certain level, the epsilon phase is formed, while the carbon solubility of the epsilon phase is very high, which in turn accelerates the dissolution of carbon.After gas nitrocarburizing, its structure is composed of epsilon phase, gamma phase and nitrogen containing cementite Fe3 (C, N), carbon will reduce the diffusion rate of nitrogen, so the thermal stress and the stress of the tissue are hard, the nitriding is large and the layer is thinner. But at the same time, because the soft nitride layer does not exist. Therefore, the nitride layer, better toughness than hard nitriding
- Q:How do aluminum profiles contribute to energy-efficient lighting systems?
- Enhancing the energy efficiency of lighting systems is a significant role played by aluminum profiles. The lightweight and highly conductive nature of aluminum allows for efficient heat dissipation, which is crucial in maintaining the lifespan and efficiency of bulbs. By utilizing aluminum profiles, the generated heat from the light source can be effectively transferred away, ensuring optimal performance and longevity. Additionally, aluminum profiles offer versatility and the ability to accommodate various lighting components such as LED strips or bulbs, reflectors, and lenses. These profiles provide a stable and secure housing for these components, preventing any damage or misalignment that could affect the efficiency of the lighting system. Furthermore, precision engineering in aluminum profiles makes installation and maintenance easy, further contributing to the overall energy efficiency of the system. Another significant advantage of aluminum profiles is their capability to act as a heat sink. By diverting heat away from the light source, the profiles help maintain lower operating temperatures, resulting in reduced energy consumption and increased efficiency of the lighting system. This is especially important for LED lighting, as they are sensitive to heat and can experience a decline in light output if not adequately cooled. Aluminum profiles enable efficient thermal management, ensuring that LED lights operate at their optimum level, saving energy and reducing the need for frequent replacements. Moreover, aluminum is a recyclable material, making it an environmentally friendly choice for lighting systems. The usage of aluminum profiles promotes sustainable practices by reducing the demand for raw materials and minimizing waste. This aligns with the principles of energy efficiency and conservation, as it reduces the overall carbon footprint of the lighting system. In summary, aluminum profiles contribute to energy-efficient lighting systems by facilitating effective heat dissipation, providing a stable housing for lighting components, acting as a heat sink, and promoting sustainable practices. These profiles enhance the performance, lifespan, and energy efficiency of lighting systems, making them an essential component in modern lighting solutions.
- Q:What are the different surface embossing options for aluminum profiles?
- Aluminum profiles offer a variety of surface embossing options, each with its own unique textures and patterns. Some commonly used options include: 1. Diamond pattern: This option creates a diamond-shaped pattern on the profile's surface, providing both visual appeal and improved grip. It is ideal for applications that require slip resistance. 2. Stucco pattern: Stucco embossing creates a textured surface with small, raised bumps. It is often used in applications where aesthetics play a crucial role, such as architectural facades or interior design elements. 3. Hammer tone pattern: This option gives the aluminum profile a hammered texture, providing a distinctive and rustic appearance. It is popular in decorative applications like furniture or light fixtures. 4. Wood grain pattern: Wood grain embossing mimics the texture and look of natural wood. It is commonly chosen for applications like window frames or doors when a traditional or natural appearance is desired. 5. Linen pattern: Linen embossing creates a subtle, fabric-like texture on the profile's surface. It is frequently used in applications that require a sophisticated and elegant finish, such as interior decorative panels or cabinet doors. It's worth noting that these embossing options can be customized or combined to meet specific design requirements. Manufacturers may offer additional options, allowing customers to choose from a wide range of patterns and textures to achieve their desired aesthetic and functional goals.
- Q:Can aluminum profiles be used for agricultural or farming applications?
- Indeed, agricultural or farming applications can make use of aluminum profiles. They possess several advantages that make them appropriate for these purposes. To start with, aluminum is lightweight, making transportation and installation easy. This proves particularly beneficial in agricultural settings where mobility and flexibility are crucial. Moreover, aluminum boasts high resistance to corrosion, making it perfect for use in harsh environments like farms that often encounter moisture, chemicals, and fertilizers. By preventing rust, it ensures durability and longevity, reducing the need for frequent replacements. Additionally, aluminum profiles can be easily customized and fabricated to fulfill specific requirements. This flexibility enables the creation of structures such as greenhouse frames, support beams, shelving systems, and other components essential in agricultural operations. Furthermore, aluminum profiles are non-toxic and do not emit harmful substances into the surrounding environment. This characteristic ensures their safety for use in farming applications, where the well-being of animals and crops is of utmost importance. Lastly, aluminum is a sustainable material that can be recycled indefinitely, minimizing its environmental impact. This aligns with the increasing emphasis on sustainability in agriculture. To conclude, due to their lightweight nature, resistance to corrosion, adaptability, safety, and sustainability, aluminum profiles are indeed suitable for various agricultural and farming applications.
- Q:Are aluminum profiles suitable for decorative applications?
- Yes, aluminum profiles are suitable for decorative applications. They are versatile, lightweight, durable, and can be easily customized to suit various design styles. Additionally, aluminum profiles offer a sleek and modern appearance, making them popular choices for decorative purposes in both residential and commercial settings.
- Q:What are the advantages of using aluminum profiles in the telecommunications infrastructure?
- Using aluminum profiles in the telecommunications infrastructure offers several advantages: 1. Lightweight: Aluminum profiles are much lighter than traditional materials like steel, making them easier to transport and install. This reduces labor costs and deployment time. 2. Resistant to corrosion: Aluminum has excellent resistance to corrosion, making it ideal for outdoor infrastructure exposed to harsh environmental conditions. It can withstand high humidity and exposure to chemicals. 3. High strength-to-weight ratio: Despite being lightweight, aluminum profiles have a high strength-to-weight ratio. This means they can support heavy equipment and structures while still being relatively light. They are perfect for applications such as antenna mounts and support structures. 4. Easy customization: Aluminum profiles can be easily customized to meet specific design requirements. They can be cut, drilled, or shaped to fit unique specifications, allowing for flexibility in design and installation. 5. Cost-effective: Aluminum profiles are generally more cost-effective compared to materials like steel or fiberglass. They require minimal maintenance, have a long lifespan, and can be recycled, reducing overall costs over the infrastructure's life cycle. 6. Electrical conductivity: Aluminum is an excellent conductor of electricity, making it suitable for telecommunications infrastructure where electrical conductivity is important. 7. Aesthetically pleasing: Aluminum profiles have a sleek and modern appearance, enhancing the overall aesthetics of the telecommunications infrastructure. This is particularly important in urban or residential areas where visual appeal is considered. Overall, the use of aluminum profiles in telecommunications infrastructure offers benefits such as lightweight design, corrosion resistance, high strength-to-weight ratio, customization options, cost-effectiveness, electrical conductivity, and aesthetic appeal. These advantages make aluminum profiles the preferred choice for various components within the telecommunications industry.
- Q:Including the element parameters, the price and the difference between 6063, what is the use and so on!How about 6060 100/ meters? How much is the strength? How much is the price more than 6063?
- 6060 aluminum material compositionSi:0.3-0.6, Fe:0.1-0.3, Cu:0.1, Mn:0.1, Mg:0.35-0.6, Cr:--, Zn:0.1, others:Ti:0.15 other total: 0.15 Al: marginPerformance: tensile strength B (MPa): more than 470 conditions yield strength of 0.2 (MPa): more than 420 elongation 5 (%): 6Product features: 1. high strength, heat treatable alloy.2., good mechanical properties,.3. good usability,.4. easy processing, good wear resistance,.5. corrosion resistance, good oxidation resistanceMain uses: Aviation fixtures, truck, tower building, ships, pipelines and other applications requiring strength, weldability and corrosion resistance of the building on the field. Such as: aircraft parts, camera lens, coupler, ship fittings and accessories, electronic accessories and fittings, decoration or various hardware, hinge head head, piston, piston, hydraulic brake, electric appliance fittings, valves and valve parts.6063 aluminum chemical composition:Al Al: residual silicon Si:0.20 ~ 0.6 copper Cu: less than 0.10 mg Mg:0.45 ~ 0.9 zinc Zn: Mn: Mn = 0.10 = 0.10 Ti = 0.10 Cr: titanium chromium iron: less than or equal to 0.10 Fe:0.000 ~ 0.350 note: single: = 0.05; total: 0.15The density of 6063 is 2.69g/cm3
- Q:What are aluminum profiles used for?
- Aluminum profiles have a wide range of applications in various industries. Construction and architecture are one of the primary uses of aluminum profiles. They are commonly employed in the framing of windows, doors, and curtain walls due to their lightweight yet durable characteristics. Modular structures like exhibition stands, trade show booths, and temporary shelters also utilize aluminum profiles in their construction. In the automotive industry, aluminum profiles play a crucial role in manufacturing components such as vehicle frames, roof rails, and trim parts. The lightweight properties of aluminum make it an excellent choice for enhancing fuel efficiency and reducing overall vehicle weight. Industrial machinery and equipment production also heavily relies on aluminum profiles. These profiles are used to construct machine frames, conveyor systems, and assembly lines. The versatility of aluminum profiles allows for easy customization and modification to meet specific industrial requirements. Furthermore, aluminum profiles find extensive use in furniture manufacturing and interior design. They are widely utilized in constructing shelving units, workstations, display cabinets, and partitions due to their aesthetic appeal, durability, and resistance to corrosion. The electrical and electronics industry also extensively utilizes aluminum profiles. They are employed in the manufacturing of heat sinks, enclosures, and mounting brackets. The excellent thermal conductivity of aluminum effectively dissipates heat, making it an ideal choice for electronic devices. In summary, the versatility, lightweight nature, corrosion resistance, and ease of customization make aluminum profiles highly sought after in numerous industries. They offer a wide range of applications in the construction, automotive, machinery, furniture, and electronics sectors.
1. Manufacturer Overview |
|
|---|---|
| Location | |
| Year Established | |
| Annual Output Value | |
| Main Markets | |
| Company Certifications | |
2. Manufacturer Certificates |
|
|---|---|
| a) Certification Name | |
| Range | |
| Reference | |
| Validity Period | |
3. Manufacturer Capability |
|
|---|---|
| a)Trade Capacity | |
| Nearest Port | |
| Export Percentage | |
| No.of Employees in Trade Department | |
| Language Spoken: | |
| b)Factory Information | |
| Factory Size: | |
| No. of Production Lines | |
| Contract Manufacturing | |
| Product Price Range | |
Send your message to us
Aluminium Radiator Profiles for Industrial Use
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT or LC
- Min Order Qty:
- 1 m.t.
- Supply Capability:
- 1000 m.t./month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
Similar products
New products
Hot products
Related keywords
