Aircraft aluminum bars made of 5052 offer outstanding formability, weldability, strength, and resistance to corrosion. Typically, it is employed in the production of aircraft wings, fuselage, and other components.
Why choose GNEE 5052 aviation aluminum bar
GNEE is a professional manufacturer of aviation materials. It has AS9100 aviation certification and strictly complies with the following AMS aviation standards.
Standards
AMS 4114, QQ-A-225/7, MIL-DTL-32262B, ASTM B221, AMS 4015, AMS 4016.
Accreditations
AS9100
OHSAS 18001
ISO14001
ISO 45001
ISO 9001
NADCAP HT
NADCAP NDT
IATP16949
5052-H111-H112-O-Aerospace-Aluminum-Bars.pdf
The specification of 5052 aerospace aluminum round bars
| Alloy | 5052 aerospace aluminum round bars |
| Temper | F, H112, O, H111 |
| Out diameter (OD) | 3.0mm-600mm |
| Length(mm) | Common 1500/3000/5000/6000MM |
| Standard | AMS 4114, QQ-A-225/7, MIL-DTL-32262B, ASTM B221, AMS 4015, AMS 4016 |
Chemical composition of 5052 aircraft aluminum bar
| Element | Composition(%) |
| Al | REM |
| Si | ≤0.25 |
| Fe | ≤0.40 |
| Cu | ≤0.10 |
| Mn | ≤0.10 |
| Mg | ≤2.2-2.8 |
| Cr | ≤0.15-0.35 |
| Ni | / |
| Zn | ≤0.10 |
| Ti | / |
| Note: Each:≤0.05;Total:≤0.15 | |
Mechanical properties of 5052 aircraft-grade aluminum square bar
| Alloy | Temper | Dimensions (mm) | Room temperature Test Result | |||
| Tensile strength/MPa | Yield strength/MPa | Elongation/% | ||||
| A50mm | A | |||||
| Not less than | ||||||
| 5052 | O H111 | All | 170-230 | 70 | 15 | 17 |
| H112 | All | 170 | 70 | 13 | 15 | |
| F | All | - | - | - | - | |
What are the advantages of the GNEE 5052 aviation aluminum flat bus bar?
Strong resistance to corrosion
Because 5052 aircraft aluminum rod is very resistant to oxidation and corrosion, it can preserve its integrity and smoothness of surface even in environments that are moist, salty, and acidic, which lowers maintenance and repair expenses.
High power
The 5052 aircraft aluminum metal bar has a tensile strength of 210–230 MPa and a yield strength of 110–130 MPa. Its exceptional strength and capacity to support certain loads guarantee the fuselage's and its components' dependability and safety.
Outstanding formability
Because of its high machinability and plasticity, 5052 aircraft aluminum bar may be used for a variety of forming techniques that can fulfill the forming needs of complicated products, including rolling, drawing, deep drawing, molding, and more.
Excellent performance while welding
The structural components may be securely spliced together using standard welding techniques such as argon arc welding, resistance welding, laser welding, etc., and 5052 aviation aluminum bar has high welding performance.
Not heavy
The 5052 aircraft aluminum rod weighs around one-third less than steel and has a low density. The lightweight design can enhance fuel economy by lowering aircraft weight and fuel consumption.
In conclusion, 5052 aircraft aluminum bar is lightweight, strong, corrosion resistant, and has good formability and weldability.
What are the precautions for purchasing a 5052 aircraft aluminum metal bar?
Model and specification
Making the right model and specification choices is crucial. Aviation aluminum rods are needed for a variety of application areas, and the right sizes and specifications must be chosen based on those needs.
It is important to keep in mind that the diameter or cross-sectional area of aircraft aluminum rods is typically used to identify their specifications and models.
Standards of quality
To guarantee that the product quality is certified and prevent quality issues, products that satisfy pertinent quality standards, such as ASTM, AMS, and others, should be used.
Reputation of suppliers
It is crucial to choose trustworthy vendors. You may choose reliable suppliers to guarantee the quality and stability of your items by asking them about their reputation and consumer feedback.
Inspection of quality
To make sure the product satisfies applicable quality requirements, it is essential to do a product quality inspection before to purchase to look for flaws, cracks, oxidation, and other issues.
Packaging and transportation
Following purchase, care should be taken to ensure that the product is packaged and transported safely to prevent damage or distortion that might lower its quality.
To put it briefly, buying 5052 aircraft rectangular bars necessitates choosing the right models and specifications, products that satisfy quality standards, trustworthy suppliers, and the required quality testing. It also involves paying attention to packaging and transportation safety, as well as ensuring the products' stability and quality.
What are the applications of GNEE aircraft aluminium alloy 5052 round bars?
The following are some of the principal uses for 5052 aircraft rectangular bars, a typical aluminum material utilized in several aviation-related fields:
Fuselage structure 5052 Aluminum Alloy Aerospace rod is typically used to make connections, supports, and other fuselage-related components. Because of its great strength and low weight, it can support the fuselage's weight, lighten the aircraft, and increase fuel efficiency.
Fuel tanks, oil pumps, and other fuel system components can be made from 5052 aluminum aircraft rod. Its strong resistance to corrosion can prevent fuel corrosion and increase the fuel system's lifespan.
Aircraft hull
Because they are strong and resistant to corrosion, 5052 aviation aluminum rods are also often used in the construction of aircraft hulls, including the hull and chassis of small airships, helicopters, and other aircraft.
Parts of aviation instruments and equipment, including navigation instruments, remote controls, landing gear, and hatches, can be made with 5052 aerospace flat bars, which also help to guarantee the stability and safety of the equipment.
In summary, the aviation industry makes extensive use of the 5052 ultralight aircraft aluminum square bar, primarily in the areas of hull, equipment, instrumentation, fuel system, and fuselage construction. It can fulfill the high standards of the aviation industry for materials and has the advantages of being lightweight, strong, formable, and resistant to corrosion.
