Why choose Chalco Aluminum alloy profile for missile launching box guide?
Chalco products are manufactured in our state-of-the-art facility using a strict quality and environmental management system that is ISO certified.
Production and management in accordance with the international power quality system to ensure a long service life.
The specification of aluminum alloy profile for missile launching box guide-mm
|Height H||Width B||Thickness h||Length|
|2A12||T3511||Pic 1||80-100||220-240||5-8||3m; customized|
|Specific dimensions should be in accordance with the requirements of the profile drawings signed by the supplying and demanding parties.|
Pic. 1 Schematic diagram of the cross-sectional shape of the 2A12 aluminium alloy T3511 state profile
Pic. 2 Schematic diagram of the cross-section shape of the 6A02 aluminium alloy T6511 state profile
2A12 aluminium alloy profiles (Pic. 1) shall have an upward and downward curvature and a lateral curvature of not more than 1m per metre, and a full-length curvature of not more than 2mm. 6A02 aluminium alloy profiles (Pic. 2) shall have an upward and downward curvature of not more than 2mm over the whole length, and a lateral curvature of not more than 1.5mm over the whole length.
2A12 aluminium alloy profiles (Pic. 1) should have a full-length twist of not more than 1.5 mm. 6A02 aluminium alloy profiles (Pic. 2) should have a full-length twist of not more than 2 mm.
6A02 Aluminium alloy profile (Pic. 2) has an angular deviation of ±10', i.e. a perpendicularity a of 90'±10'.
The symmetry of the profile is ±0.5mm.
Chemical component of Chalco Aluminum alloy profile for missile launching box guide
|Dissolved aluminium impurities||0.15||Dissolved aluminium impurities||0.15|
|Other (individual impurities)||0.05||Other (individual impurities)||0.05|
|Other (total impurities)||0.15||Other (total impurities)||0.15|
Mechanical property of Chalco Aluminum alloy profile for missile launching box guide
|Alloy||Temper||Sample temper||Tensile strength Rm MPa||Yield strength Rp0.2 MPa||Elongation A%||Hardness HBW 2.5/62.5/30|
|Not less than|
Advantages of Chalco aluminum alloy profile for missile launching box guide
Lightweight: aluminium alloy is a lightweight material with a lower density compared to conventional steel. The use of aluminium alloy profiles can significantly reduce the weight of the rail, helping to improve the mobility and transport efficiency of the missile case.
High strength: although aluminium alloys have a lower density, their strength is relatively high. Aluminium alloy profiles have good strength and rigidity and can withstand large loads and impacts, ensuring the stability and safety of the guideway.
Corrosion resistance: aluminium alloys have good corrosion resistance and can withstand humidity, oxygen and some chemical substances. This is particularly important for missile launch box rails, as they are often required to work in harsh environmental conditions, such as marine environments or high humidity environments.
Machinability: aluminium alloy profiles have good machinability and are easy to cut, drill, stamp, weld and other machining processes. This makes the design and manufacture of rails more flexible and convenient, and can meet a variety of complex shape and size requirements.
Thermal conductivity: aluminium alloy has good thermal conductivity and can conduct and dissipate heat quickly. During the missile launching process, the guide rail may be subject to high temperature impact, and the aluminium alloy can effectively disperse the heat and maintain the stable temperature of the guide rail, which helps to improve the service life of the guide rail.
In summary, the use of aluminium alloy profiles for missile launch box guide rails has the advantages of light weight, high strength, corrosion resistance and good processing performance, making it a common choice. These advantages help to improve the performance, reliability and service life of missile launch boxes.
Precautions for purchasing aluminum alloy profile for missile launching box guide
Ensure that the purchased Aluminum alloy profile for missile launching box guide meets relevant standards and obtains a qualified material certification certificate.
Select the appropriate specification, size and shape according to actual needs to ensure that the purchased Aluminum alloy profile for missile launching box guide can meet the specific Aluminum alloy profile for missile launching box guide manufacturing requirements.
Check whether the surface of the purchased Aluminum alloy profile for missile launching box guide is smooth, free of cracks, wear, oxidation or other surface defects, to ensure that the surface quality of the Aluminum alloy profile for missile launching box guide meets the requirements.
Choose a reputable and experienced supplier to purchase to ensure that the purchased Aluminum alloy profile for missile launching box guide is reliable in quality, reasonable in price and timely in delivery.
Pay attention to the storage requirements of the Aluminum alloy profile for missile launching box guide, keep it dry, avoid moisture, mechanical impact or other damage.
In short, when purchasing Aluminum alloy profile for missile launching box guide, you need to pay attention to material certification, specification requirements, surface quality, supplier reputation and storage requirements, etc., to ensure that the purchased Aluminum alloy profile for missile launching box guide are reliable in quality and meet the requirements.
Applications of Chalco Aluminum alloy profile for missile launching box guide
Military missile systems: aluminium rails are widely used in various military missile systems. The guide rails of missile launch boxes are used to support and guide the operation of missiles to ensure accurate missile launch and target hit. Aluminium alloy profiles are able to meet the high strength and durability requirements of guide rails, while reducing the weight of the entire system.
Spacecraft launching system: in the spacecraft launching system, guide rails are used to support and guide the launching process of the spacecraft. Aluminium alloy profiles can meet the high strength and rigidity requirements of guide rails, and at the same time have good corrosion resistance and lightweight characteristics, which help to improve the performance and efficiency of the whole launch system.
Rocket launching system: the guide rail in the rocket launching system bears the function of supporting, guiding and maintaining the running trajectory of the rocket. Aluminium alloy profiles are suitable for manufacturing guide rails of various sizes and shapes, with sufficient strength and rigidity to cope with the vibration and impact of rocket launching.
Shipboard missile launching systems: missile launch box rails on ships are used to support and guide the launching of missiles. Due to the complexity of the naval environment, the rails need to have good corrosion resistance and structural stability. Aluminium alloy profiles meet these requirements and are lightweight, helping to reduce the ship's load.
In conclusion, the use of aluminium alloy profiles for missile launch box rails is widely used in the military and aerospace fields, including military missile systems, spacecraft launch systems, rocket launch systems and naval missile launch systems. The advantages of aluminium alloy profiles make them ideal for use in these fields, meeting the requirements of high strength, corrosion resistance and light weight.