What are the key characteristics of 6000 series aluminum alloys. How do different alloys in this series compare in terms of strength and applications. Which industries commonly use 6000 series aluminum alloys.
Understanding 6000 Series Aluminum Alloys
Aluminum alloys are created by mixing aluminum with other elements to enhance its properties. The 6000 series is a family of aluminum alloys that primarily contain magnesium and silicon as alloying components. These alloys are known for their excellent extrudability, strength, and high corrosion resistance.
Why are 6000 series alloys so popular in various industries? They offer a unique combination of properties that make them suitable for a wide range of applications:
- Excellent strength-to-weight ratio
- High corrosion resistance
- Good formability
- Heat treatability
- Weldability
These characteristics make 6000 series alloys ideal for structural and architectural applications, as well as various other industries.
The Composition and Properties of 6000 Series Alloys
What sets 6000 series alloys apart from other aluminum alloy families? The key lies in their composition. These alloys contain between 90% and 96% aluminum, with magnesium and silicon as the primary alloying elements. This unique combination results in a material that offers a balance of strength, corrosion resistance, and formability.
How does the addition of magnesium and silicon affect the alloy’s properties?
- Magnesium: Enhances strength and hardness
- Silicon: Improves fluidity and reduces the melting point
The interaction between these elements creates a material that can be easily extruded into complex shapes while maintaining excellent mechanical properties.
Common 6000 Series Alloys and Their Characteristics
Within the 6000 series, several alloys stand out due to their unique properties and widespread use. Let’s explore some of the most common alloys in this series:
6061 Alloy: The Versatile Performer
6061 is often considered the most versatile alloy in the 6000 series. What makes it so popular?
- High strength-to-weight ratio
- Excellent corrosion resistance
- Good machinability and weldability
- Heat treatability
These properties make 6061 suitable for a wide range of applications, from transportation and infrastructure to everyday items like fly fishing reels and firearm suppressors.
6063 Alloy: The Surface Finish Champion
6063 alloy is known for its excellent surface finish and moderate strength. How does it differ from 6061?
- Lower magnesium and silicon content
- About half the strength of 6061
- Superior surface finish capabilities
These characteristics make 6063 ideal for applications where aesthetics are important, such as window frames, decorative structures, and furniture.
6082 Alloy: The Structural Powerhouse
6082 is often referred to as the “structural alloy” due to its high strength. What sets it apart from other 6000 series alloys?
- Higher strength compared to 6061 and 6063
- Contains silicon and manganese
- Excellent weldability and corrosion resistance
- Controlled grain structure due to manganese content
These properties make 6082 suitable for applications requiring high strength and toughness, such as bridges, towers, and structural components in automotive and marine industries.
6005 and 6005A Alloys: The Specialized Options
6005 and 6005A are less common but offer unique properties for specific applications. How do they differ?
- 6005: Higher silicon content, improved extrudability
- 6005A: Higher chromium content, improved stress corrosion resistance
These alloys are often used in specialized applications where their unique properties provide specific advantages.
Applications of 6000 Series Aluminum Alloys
The versatility of 6000 series alloys makes them suitable for a wide range of industries and applications. Where are these alloys commonly used?
Transportation Industry
In the transportation sector, 6000 series alloys play a crucial role due to their lightweight nature and high strength. How are they utilized in this industry?
- Automotive components: Body panels, frames, suspension parts
- Aerospace: Non-flight critical aircraft components
- Marine: Structural components for boats and ships
- Rail: Carriage bodies and structural elements
Architecture and Construction
The construction industry heavily relies on 6000 series alloys for various applications. What makes them suitable for architectural use?
- Window and door frames
- Curtain walls and facades
- Roofing systems
- Structural supports and beams
The combination of strength, corrosion resistance, and aesthetic appeal makes these alloys ideal for both functional and decorative architectural elements.
Infrastructure
6000 series alloys, particularly 6082, are increasingly used in infrastructure projects. How do they contribute to this sector?
- Bridges: Structural components and decking
- Towers: Telecommunication and power transmission structures
- Trusses: Support structures for large buildings and stadiums
The high strength-to-weight ratio and corrosion resistance of these alloys make them an excellent choice for long-lasting infrastructure projects.
Consumer Goods and Sports Equipment
Beyond industrial applications, 6000 series alloys find their way into various consumer products. What everyday items might contain these alloys?
- Sporting goods: Bicycle frames, golf club shafts, tennis rackets
- Outdoor equipment: Camping gear, hiking poles
- Home appliances: Cookware, kitchen utensils
The combination of light weight, durability, and corrosion resistance makes these alloys popular in products that require high performance and longevity.
Advantages of Using 6000 Series Aluminum Alloys
What makes 6000 series alloys so popular across various industries? Let’s explore their key advantages:
Strength-to-Weight Ratio
One of the most significant benefits of 6000 series alloys is their excellent strength-to-weight ratio. How does this property benefit various applications?
- Reduced overall weight in vehicles, leading to improved fuel efficiency
- Easier handling and installation of construction materials
- Improved performance in sporting goods and equipment
Corrosion Resistance
The high corrosion resistance of 6000 series alloys makes them ideal for outdoor and marine applications. Why is this property so crucial?
- Extended lifespan of products and structures
- Reduced maintenance costs
- Improved safety in critical applications
Formability and Extrudability
6000 series alloys are known for their excellent formability and extrudability. How do these properties benefit manufacturers?
- Ability to create complex shapes and profiles
- Reduced manufacturing costs due to easier processing
- Greater design flexibility for engineers and architects
Heat Treatability
Many 6000 series alloys can be heat-treated to enhance their properties. What advantages does this offer?
- Ability to tailor strength and hardness for specific applications
- Improved machinability in certain conditions
- Enhanced overall performance of the final product
Challenges and Limitations of 6000 Series Alloys
While 6000 series alloys offer numerous advantages, they also have some limitations. What are the main challenges associated with these alloys?
Strength Limitations
Although 6000 series alloys offer good strength, they may not be suitable for applications requiring extremely high strength. How does this compare to other aluminum alloy series?
- 2000 and 7000 series alloys generally offer higher strength
- Some applications may require the use of steel or other materials for maximum strength
Welding Considerations
While 6000 series alloys are generally considered weldable, there are some challenges to consider. What issues might arise during welding?
- Potential for strength reduction in the heat-affected zone
- Need for specific welding techniques and filler materials
- Possibility of distortion or warping in thin sections
Cost Factors
While 6000 series alloys are generally cost-effective, how do they compare to other materials in terms of overall cost?
- Higher initial cost compared to some steel grades
- Potential for long-term cost savings due to reduced maintenance and longer lifespan
- Cost fluctuations based on global aluminum prices
Future Trends and Developments in 6000 Series Alloys
As technology advances and industry needs evolve, what can we expect in the future of 6000 series aluminum alloys?
Enhanced Alloy Compositions
Researchers and manufacturers are continually working to improve the properties of 6000 series alloys. What developments are on the horizon?
- New alloy compositions with improved strength and formability
- Alloys tailored for specific industry needs, such as automotive lightweighting
- Development of alloys with enhanced recycling capabilities
Advanced Manufacturing Techniques
How might new manufacturing technologies impact the use of 6000 series alloys?
- Additive manufacturing (3D printing) of complex aluminum alloy parts
- Improved extrusion techniques for more intricate profiles
- Advanced heat treatment processes for optimized properties
Sustainable Production and Recycling
As environmental concerns grow, how will the aluminum industry adapt?
- Increased focus on recycling and circular economy principles
- Development of more energy-efficient production processes
- Research into bio-based or naturally derived alloying elements
The future of 6000 series aluminum alloys looks promising, with ongoing research and development aimed at enhancing their properties and expanding their applications. As industries continue to seek lightweight, durable, and sustainable materials, these alloys are likely to play an increasingly important role in various sectors.
In conclusion, 6000 series aluminum alloys offer a unique combination of properties that make them invaluable in numerous applications across diverse industries. Their balance of strength, corrosion resistance, formability, and other desirable characteristics ensures their continued relevance in an ever-evolving technological landscape. As we look to the future, the ongoing development and refinement of these alloys promise even greater possibilities for innovation and sustainable engineering solutions.
6000 Series Aluminum Alloys – Taber Extrusions
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An Aluminum alloy is created when aluminum is mixed with other elements such as silicon or magnesium and other elements. There are many benefits to using alloyed metals as opposed to pure metals, as alloys allow us to extract the desirable properties and leave the undesirable ones behind. Aluminum by itself is great, but by integrating other elements into the mix, we have the opportunity to introduce various degrees of hardness, durability, ductility, tensile strength, and toughness.
Combined with its great strength, corrosion resistance, and other excellent qualities, you have a perfectly suited alloys for a multitude of uses in numerous end applications. Extrusion companies, such as Taber, offer manufacturers a wide variety of aluminum alloys to be specified by the customer depending on the applications in such industries as infrastructure, automotive, and appliances. This article dives into the topic of aluminum alloys, specifically the most predominant alloy family used for aluminum extrusions — 6000 series aluminum alloys.
In one of our previous blog posts, we defined an alloy as a mixture of metals, and in the case of aluminum alloys, the all alloys contain between 90 and 96% aluminum. Different alloy mixtures are classified into a series according to their unique characteristics. A four-digit number is used to identify alloy mixtures. The first digit of the number identifies the series (class) of alloy they belong to:
The 6000 series is an aluminum alloy family which contains magnesium and silicon as predominat alloying components. The remarkable properties of 6000 alloys are their extrudability, excellent strength, and high corrosion resistance. 6000 sereies alloys can also be thermally treated to enhance their strength properties. Extrusion products in the 6000 series are perfect choices for structural and architectural applications.
Taber offers a wide range of 6000 series aluminum alloys including 6061, 6063, 6082, 6005, and 6005A.
6061 alloy
6061 is very popular for its characteristic toughness in medium- to high-strength applications. It is the most versatile and most used alloy of all the other 6000 series alloys because of its heat treatability and comparably easy machining and welding. 6061 alloys contain magnesium and silicon, which gives them a much greater corrosion resistance even on abraded surfaces.
Uses of this form of 6000 series alloy include applications from transportation, to infrastructure to more every day uses like fly fishing reels, firearm suppressors, non-flight critical aircraft components and automotive components. 6061 is available in many forms, including extrusion sheets, and forgings.
6063 alloy
6063 is also an aluminum alloy with magnesium and silicon. First, it has lower magnesium and silicon levels, it is only half as strong as 6061, making it suited for applications where strength is not the fundamental consideration. Secondly, with the lower amounts of alloying components, achieving higher surface finish criteria is also possible.
Common uses for 6063 alloys include door and window frames, non-load-bearing posts, roofs, decorative structures, railings, furniture, parts for boats and motor vehicles, and electrical components such as conduit pipes, and tubes for irrigation systems. 6063 alloys are highly corrosion resistant which prevents environmental deterioration.
6082 alloy
6082 alloy is generally known as “structural alloy” and provides one of the highest strengths of all the 6000 series aluminum alloys. It is a good alternative for engineers who don’t want to invest in the stronger 2xxx/7xxx series and also enables the ability to extrude more complex shapes not posible in 2xxx/7xxx alloys. 6082 is an alloy with silicon and manganese. It is commonly known for machining, and it also features excellent weldability, cold formability, and corrosion resistance. Its high amount of manganese allows it to control its grain structure, resulting in a stronger alloy that is perfect for general purpose applications that require an extra degree in strength and toughness. One drawback is that it is harder to form thin-walled, complicated extrusion shapes using 6082 alloys versus other alloys in the 6000 series family.
6082 is a relatively new alloy in North America and gaining wider acceptance, and in some applications, it can replace 6061 because of its higher strength capacity. It is typically used in highly stressed applications such as bridges, towers, trusses, structural automotive, and structural marine applications.
6005 and 6005A alloy
6005 alloy contains greater amounts of silicon which reduces its melting point and enhances its extrudability. 6005A, on the other hand, contains higher amounts of chromium which reduces its susceptibility to stress corrosion and improves its toughness. 6005A also contains extra manganese, which increases its strength and extrudability. Producing thin-walled and intricate extrusion can be difficult with 6005, but it still has better extrudability than 6082. Both 6005 and 6005A possess excellent bending capabilities and a better mill surface finish than 6061. These two alloys can both be welded or brazed easily using commercial methods, but the heat from welding can diminish the strength of the alloy. Both 6005 and 6005A offer excellent corrosion resistance, finishing characteristics, and respond well to standard anodizing methods creating clear, clear and color dye, and hardcoat finishes.
6005, 6005A , 6061 & 6082 have a fair amount of similarities and can be interchangeable in some situations, but 6005 and 6005A have much better extrusion qualities and mill surface finish than 6061 & 6082.
6005 and 6005A are typically used for applications that require intricate extrusions such as tubing for furniture, components for railways and busses, pipe, portable ladders, and applications where much greater strength from 6063 is needed, as well as in some marine applications.
Taber is considered a leader for specialty products such as 6000 series aluminum extrusions for use in many applications. 6000 alloys represent the vast majority used in the production of profiles for Taber Extrusions’ customers. Taber has focused on producing 6000 series alloys and has gained the expertise needed to meet these alloys’ rigorous manufacturing and processing requirements.
About Taber Extrusions:
Founded in 1973, Taber Extrusions originally pioneered a process for extruding rectangular billet, enabling the company to extrude solid profiles up to 31 inches wide or hollows up to 29 inches. Taber expanded with the purchase of an extrusion facility in Gulfport, MS, in 1995, which houses a new state-of-the-art cast house and two additional presses, microextrusion capabilities, and expanded the fabrication area multiple times.
Taber continues to extrude billet in a wide range of alloys and sizes and has developed its markets beyond the military since its inception to include aerospace, automotive, marine, infrastructure, and sporting goods, among many others. For these markets, the company supplies cast and extruded products in various soft and hard alloys.
Today, Taber Extrusions has completed the addition of in-house friction stir welding capabilities and carries on their offering of extruded aluminum components, value-added machining services, and raw material supply to the North American market – making them a vertically integrated supplier of FSW panels and assemblies never before seen in North America.
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LINKEDIN: https://www. linkedin.com/company/8843183/
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Interested in becoming a part of the Taber Team? Submit your resume to [email protected].
Become a customer today! Visit us or request a quote: https://taberextrusions.com or call us at (888) 985-5319.
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6000-Series Aluminum Alloys & Benefits of Aluminum Products
When it comes to industrial applications, it is very rare for pure aluminum to be used, especially when it comes to standard and custom aluminum extrusion. Aluminum is typically alloyed with other metals, which are used to enhance the natural benefits of aluminum products. The additives that are used to create the alloys will depend on the intended use of the final profile. A basic understanding of aluminum and its various alloys can help manufacturers better understand the advantages associated with choosing to extrude aluminum alloys in the 6000-series as we do at Silver City Aluminum.
The Aluminum Alloy Series
Selecting the best alloy for your custom aluminum extrusion can be achieved through the help of our team of experienced technicians and engineers. While there are multiple options within each alloy series, the primary alloys are grouped into seven distinct categories. When you compare the different materials used in each group of alloys, it becomes clear why certain types were chosen for extrusion purposes. The characteristics of each alloy benefit the final product, making it stronger, more durable, and less likely to become damaged by rust or corrosion.
- 1000-Series – Closest to pure aluminum materials used in manufacturing, contains approximately 99 percent aluminum or more. Extremely lightweight and very pliable compared to other metals used for production.
- 2000-Series – Copper is added to the aluminum to make it harder and increase corrosion resistance beyond the natural protection from the oxide layer. These alloys contain anywhere between 2-10 percent copper, depending on the demands of the project.
3000-Series – Manganese is added to the aluminum for this series to increase strength and strain hardening qualities. Even high temperatures cannot affect the corrosion resistance of this alloy. - 4000-Series – Silicon is added to the aluminum to reduce the overall melting point of the aluminum and boost ductility. When magnesium is added to this alloy, it can be heat-treated to convert it into a 6000-series alloy, which is excellent for standard and custom aluminum extrusion.
- 5000-Series – When magnesium alone is added to aluminum, the strength of the alloy is increased considerably. It can also be hardened when submitted to strain, making it the perfect choice for use with sheets and plates of aluminum alloy for manufacturing.
- 6000-Series – At Silver City Aluminum, this is our choice to extrude aluminum alloys for our clients. We utilize the 6005, 6063, and 6463 alloys in a variety of tensile strengths to meet the needs of each project. This alloy contains both magnesium and silicon in addition to the aluminum, improving ductility, allowing the metal to be heat-treatable, and adding other characteristics that make it perfect for aluminum extrusions.
- 7000-Series – Zinc is added to aluminum for this series of aluminum alloys, as well as smaller amounts of magnesium or copper to improve strength and provide other benefits of aluminum products.
Quality Materials for Extrusion
To benefit from all of the advantages of using aluminum, it is essential to use quality materials. This is true whether you are creating standard or custom aluminum extrusion. Before we extrude aluminum alloys for our clients, we start with billet from several different suppliers that is made of 99.9 percent recyclable aluminum. This provides quality results and ensures the sustainability of the projects that we complete. Our team pre-cuts the billets into 7-inch diameter pieces to size that corresponds with the length and weight of the ordered profile. This helps to minimize scrap and reduce costs for our customers.
Once the billets have been cut, they are loaded into a long oven for pre-heating before the extrusion process begins. Our team uses a specific temperature to guarantee proper extrusion. A steel profile is chosen or designed by the client for custom aluminum extrusion. The heated alloy is then pushed at approximately 10,000,000 pounds of pressure through the profile or die to create the exact shape that is required. The final phase of the process involves cooling down the finished products on a table and then stretching them into the perfect dimension while they are still warm with our opposing stretchers. We then cut the metal to the client’s requested length before heat-treating it to harden the aluminum to its maximum capacity.
Ready to Extrude Aluminum Alloys?
If you are ready to take advantage of all the benefits of aluminum products to meet your manufacturing or industry needs, contact our team at Silver City Aluminum. We can help you choose the best standard or stock profiles, assist in the design of custom aluminum extrusion dies, and help you maximize the advantages of using aluminum. Give us a call at 508-824-8631 or use our online contact form to reach one of our team members.
6000 series aluminum alloy | Alloy Al-Mg-Si
Medium strength Al-Mg-Si alloy, called 6000 series aluminum alloy, has corrosion resistance, welding performance and easy processing. Our company’s 6000 series aluminum alloy products mainly include aluminum alloy tubes, aluminum rods and rods, aluminum alloy plates and aluminum alloy profiles.
- 6000 series aluminum alloy pipes
- 6000 Series Aluminum Alloy Bar
- 6000 series aluminum alloy profile
- 6000 series aluminum alloy plates
The following are descriptions of 6000 series aluminum alloy parts:
1. The main alloying elements are Mg and Si, forming the Mg2Si phase.
2. If there is a certain amount of Mn and Cr in the aluminum alloy, it will neutralize the bad effect of iron.
3. Sometimes we add a little Cu or zinc to improve the strength of the aluminum alloy, as well as good corrosion resistance.
4. For the manufacture of conductive materials in aluminum alloy, a little Cu will be added to reduce the effect of iron conductivity caused by titanium.
5. Zr and Ti can create a fine crystal structure and work to control the recrystallization structure.
6. Pb and Bi can be added to aluminum alloy to improve cutting performance.
7. By dissolving Mg2Si in aluminum, the aluminum alloy can be strengthened and hardened.
Our company can produce 6000 series aluminum alloy using the following:
Aluminum alloy grade | Application | |
Aluminum alloy 6061 | Aluminum Alloy 6061 aluminum alloy is used for industrial structures with high strength, such as aluminum alloy pipes, bars, plates and profiles, carts, construction towers, ships, light rail vehicle, furniture, machine parts, etc. . | Request |
Aluminum alloy 6A02 | 6A02 aluminum alloy is used for aircraft engine parts, forged parts, forging parts, etc. | Request |
Aluminum alloy 6082 | 6082 aluminum alloy is used for high strength and corrosion resistant aluminum alloy products with weldability, such as aircraft lights, trucks, towers, ships, pipelines. This aluminum alloy can also be used to make aircraft parts, camera lenses, connectors, marine accessories and hardware, electronic fittings and connectors, decorative hardware, swivel head, brake piston, water pistons, electrical appliance accessories, valves and valve parts. | Request |
Aluminum alloy 6005 | 6005 aluminum alloy is used for making extruded aluminum profiles and pipes, and building parts requiring higher strength than 6063 aluminum alloy, such as stairs, TV antennas, etc. | Request |
Aluminum alloy 6009 | 6009 aluminum alloy is used for making car body panels | Request |
Aluminum alloy 6010 | 6010 aluminum alloy is used to make aluminum alloy sheets as body panels. | Request |
Aluminum alloy 6063 | 6063 aluminum alloy is used for construction profiles, agricultural irrigation pipes, aluminum profiles, for vehicles, platforms, furniture and fences. | Request |
Aluminum alloy 6066 | 6066 aluminum alloy is used as forging and welding materials for extrusion. | Request |
Aluminum alloy 6070 | 6070 aluminum alloy is used to make aluminum profiles and tubes for heavy duty welded construction, automotive and industrial applications. | Request |
Aluminum alloy 6101 | 6101 aluminum alloy is used to make high strength metal rods for busbars, electrical conductors and radiator products. | Request |
Aluminum alloy 6151 | 6151 aluminum alloy is used for making crankshaft parts, machine parts, rolling rings, of which aluminum alloy has high strength, good forging performance and corrosion resistance. | Request |
Aluminum alloy 6201 | 6201 aluminum alloy is used for making high strength electrical conductive materials and wires. | Request |
Aluminum alloy 6205 | 6205 aluminum alloy is used for thick plates, pedals and high strength aluminum alloys. | Request |
Aluminum alloy 6262 | 6262 aluminum alloy is applied to make parts with high stress and corrosion resistance than 2011 aluminum alloy and 2017 aluminum alloy. | Request |
Aluminum alloy 6351 | 6351 aluminum alloy is used for automotive extruded structural parts, water pipelines, oil pipelines, etc. | Request |
Aluminum alloy 6463 | 6463 aluminum alloy for making structural profiles and various hardware profiles, bright automotive decorative parts using | Request |
6000 Series Aluminum Alloy Plates | Aluminum alloy supplier
Custom solution
Guoxin can provide aluminum alloy plates and profiles as well as aluminum alloy tubes and bars from 1000 to 7000 series. Please tell us your requirement needs, such as aluminum alloy grade, specification and heat treatment of 6000 series aluminum alloy, our company can provide you with customized aluminum alloy production solutions and products.
For more information on the grades of aluminum and aluminum alloy used in different countries, please click here for reference: Aluminum grade
Our recommended aluminum alloy product
Aluminum alloy plates 6061
6061 aluminum alloy is used for high strength industrial structures, such as aluminum alloy bars, plates and profiles for trucks, high-rise buildings, ships, light rail vehicles, furniture, machine parts, precision machining, etc.
Alloy | Main alloying element (mass fraction) (%) | |||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | others | Al | |
Aluminum alloy 6061 | 0. 40-0.8 | 0.70 | 0.15-0.40 | 0.15 | 0.8-1.2 | 0.04-0.35 | 0.25 | 0.15 | unit: 0.05; total: 0.15 | rest of |
Alloy | Mechanical and physical properties | ||||
tensile strength (25°C MPa) | yield strength (25°C MPa) | stiffness 500kg 10mm | Extension 1.6mm(1/16in) thickness | max. shear stress (MPa) | |
Aluminum alloy 6061-T651 | 310 | 276 | 95 | 12 | 205 |
weldability | machinability | corrosion resistance | electrical conductivity20℃(68℉) (%IACS) | density (20℃) (g/cm3) | |
Excellent | Not bad | Good | 40-50 | 2. 73 |
Also the following recommended products:
Aluminum alloy products | Application | |
Aluminum alloy 6A02 | 6A02 aluminum alloy is used for aircraft engine parts, complex shaped stamping parts, forging parts, etc. | Request |
Aluminum alloy 6082 | 6082 aluminum alloy is used to make high strength and corrosion resistant aluminum alloy product with weldability, such as lighting fixtures, aviation, trucks, towers, buildings, ships, pipelines. This aluminum alloy can also be used to make aircraft parts, lenses, camera, clutch, marine accessories, electronic fittings and connectors, decorative equipment, head hinges, piston, electrical accessories, valves and valve parts. | Request |
Guoxin can offer 6000 series aluminum alloy plate as follows:
Aluminum alloy plate 6061
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6061 | 0. 4~0.8 | 0.7 | 0.15~0.4 | 0.15 | 0.8~1.2 | 0.04~0.35 | 0.25 | 0.15 | rest of |
Aluminum alloy plate 6A02
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6A02 | 0.5~1.2 | 0.5 | 0.2~0.6 | 0.15~0.35 | 0.45~0.9 | — | 0.2 | 0.15 | rest of |
6082 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6082 | 0. 7~1.3 | 0.5 | 0.1 | 0.4~1.0 | 0.6~1.2 | 0.25 | 0.2 | 0.1 | rest of |
6005 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6005 | 0.6~0.9 | 0.35 | 0.1 | 0.1 | 0.4~0.6 | 0.1 | 0.1 | 0.1 | rest of |
6010 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6010 | 0. 8~1.2 | 0.5 | 0.15~0.6 | 0.2~0.8 | 0.6~1 | 0.1 | 0.25 | 0.1 | rest of |
6063 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6063 | 0.2~0.6 | 0.35 | 0.1 | 0.1 | 0.45~0.9 | 0.1 | 0.1 | 0.1 | rest of |
6066 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6066 | 0. 9~1.8 | 0.5 | 0.7~1.2 | 0.6~1.1 | 0.8~1.4 | 0.4 | 0.25 | 0.2 | rest of |
6070 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6070 | 1.0~1.7 | 0.5 | 0.15~0.4 | 0.4~1.0 | 0.5~1.2 | 0.1 | 0.25 | 0.15 | rest of |
6101 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6101 | 0. 3~0.7 | 0.5 | 0.1 | 0.03 | 0.35~0.8 | 0.03 | 0.1 | — | rest of |
6151 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6151 | 0.6~1 | 1 | 0.35 | 0.2 | 0.45~0.8 | 0.15~0.35 | 0.25 | 0.15 | rest of |
6201 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6201 | 0. 5~0.9 | 0.5 | 0.1 | 0.03 | 0.6~0.9 | 0.03 | 0.1 | — | rest of |
6262 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6262 | 0.15~0.4 | 0.4~0.8 | 0.7 | 0.15 | 0.8~1.2 | 0.04~0.14 | 0.25 | 0.15 | rest of |
6351 aluminum alloy plate
Alloy | Main alloying element (mass fraction) (%) | ||||||||
Si | Fe | Cu | Mn | Mg | Cr | Zn | Ti | Al | |
Aluminum alloy 6351 | 0.Related Stories |