2017 aluminum plate is a high-strength, heat-treatable aluminum plate, often referred to as aerospace aluminum. Application examples include aircraft structural components, rivets, truck wheels, and propeller parts.
2017 aluminum alloy exhibits excellent strength under pressure, making it particularly suitable for structural components and heavy-duty applications. It can be used in environments below 150°C, with strength performance surpassing that of 7075 alloy at temperatures above 125°C.
2017 aluminum alloy industrial product, 2017 aluminum plate, is the first 2 series alloy to gain industrial application, with high strength and good machinability, but poor corrosion resistance.
2017 aluminum alloy sheet and plate are generally heat-treatable wrought alloys. 2017 aluminum alloy sheet and plate have excellent fatigue resistance, high strength and good machinability. The product is suitable for welding purposes and is used in a variety of applications.
2017 aluminum alloy, 2 series aluminum plate is characterized by high hardness, with the highest content of copper, which is about 3-5%.
2017 aluminum is stronger than 2011 aluminum, and like many aluminum alloys, 2017 aluminum should not be welded because it will reduce the corrosion resistance of the alloy.
UNS A92017, ISO AlCu4MgSi, Aluminium 2017, AA2017, Al2017
1. Heat Treatability
2017 aluminum alloy can be heat-treated to enhance its mechanical properties, resulting in higher strength and hardness in applications.
2. Strength
Compared to 2011 aluminum alloy, 2017 aluminum offers higher strength, making it suitable for applications requiring high strength.
3. Ductility and Machinability
The alloy features excellent ductility and machinability, making it easy to form and process.
4. Corrosion Resistance
2017 aluminum alloy has good corrosion resistance, typically enhanced by anodizing or coating treatments to improve protection in harsh environments. However, welding may reduce its corrosion resistance.
5. High Strength
2017 aluminum plate demonstrates outstanding tensile and yield strength, making it ideal for structural applications requiring high strength.
6. Good Corrosion Resistance
The alloy offers good atmospheric corrosion resistance, further enhanced by anodizing or coating, suitable for use in severe environments.
7. Fatigue Resistance
2017 aluminum plate exhibits excellent fatigue resistance under cyclic loads, making it suitable for engineering projects requiring durability and reliability.
1. Machinability
2017 aluminum plate has excellent machinability, suitable for various processing methods, including spot welding and seam welding, with stable performance.
2. Surface Quality
The surface of 2017 aluminum plate is free of oil stains, waviness, and scratches, with uniform and burr-free cutting edges, ensuring overall quality and appearance of the plate.
2017 aluminum plate has good formability in annealing and new quenching states, but its corrosion resistance is poor and can be effectively protected by pure aluminum cladding. It is easy to crack during welding, but it can be welded by special processes or connected by riveting.
| Property | Value |
| Solution Treatment Temp | 500°C - 510°C |
| Annealing Range (Cold Worked) | 340°C - 350°C |
| Annealing Temp (Post Heat Treatment) | 415°C |
| Element | Range |
| Al | 91.5-95.5% |
| Cu | 3.5-4.5% |
| Mn | 0.4-1% |
| Fe | 0.7% max |
| Mg | 0.4-0.8% |
| Zn | 0.25% max |
| Ti | 0.15% |
| Cr | 0.1% |
| Material | Condition | Tensile Strength (N/mm²) min | Yield Strength | Elongation in 4D % | ||
| ksi | Mpa | ksi | Mpa | |||
| Alloy 2017 | 2017-T4 Bar | 55 | 379 | 32 | 221 | 12 |
2017 aluminum plates are usually used in rivets, general mechanical parts, aircraft, ships, transportation, building structures, transportation vehicle structures, propeller components and accessories, etc.
Aluminum Alloy 2017 Applications:
| Application | Description |
| Aerospace Components | Aluminum Alloy 2017 used extensively in the aerospace industry for parts that require high strength and durability, such as aircraft wings, fuselage structures, and internal components. Its high strength-to-weight ratio makes it ideal for aerospace applications where performance and weight efficiency are critical. |
| Rivets | 2017 aluminum plates are often used to manufacture high-strength rivets. These rivets are crucial in various industries, particularly aerospace and automotive, where they provide secure fastening and structural integrity. |
| General Structural Components | Employed in a range of structural applications where high strength and resistance to wear are essential. This includes frames, brackets, and supports in construction and industrial machinery. |
| Transportation | Utilized in the transportation sector for parts that need to withstand significant stress and wear. Applications include truck wheels, trailers, and structural elements of transport vehicles. |
| Fasteners | 2017 aluminum plate used to produce durable and reliable fasteners that are essential for assembling and securing components in various mechanical and structural applications. These fasteners benefit from the alloy's strength and fatigue resistance. |
1. 2017 aluminum vs 6061
2017 aluminum has higher strength and better machinability than 6061 aluminum, but 6061 offers better corrosion resistance and is more commonly used.
2. 2017 aluminum equivalent
The aluminum equivalent for 2017 is AA2017 in the Aluminum Association's designation system, and it is similar to AlCu4MgSi in the European standard.
3. Aluminum 2017 vs 2024
Aluminum 2017 has lower strength and slightly better machinability than 2024, which has higher strength and is more fatigue-resistant, making 2024 more suitable for high-stress applications.
Please feel free to write down your requirement in the form below. We will reply you within 24 hours and we will protect your personal privacy information.