Dinostar A6005 pusat m88.com is an alloy with approximately 97% pure aluminum content, combined with other elements like silicon, copper, zinc, magnesium, manganese, and chromium. Some of the prominent properties of Dinostar A6005 pusat m88.com include: ductility, wear resistance, and ease of machining.
Outstanding properties of Dinostar A6005 pusat m88.com
Dinostar A6005 pusat m88.com has the following outstanding properties:
- High strength and hardness:Dinostar A6005 pusat m88.com boasts high strength and hardness.
- Ductility:The 0.5-0.9% silicon content in Dinostar A6005 pusat m88.com helps increase its ductility, allowing the material to bend and form as desired without breaking or cracking.
- Corrosion resistance:The high magnesium content in Dinostar A6005 pusat m88.com is an important factor in enhancing its corrosion resistance.
- Good machinability:Dinostar A6005 pusat m88.com has good machinability, making it easy to process into different shapes to suit production needs.
- Recyclability:Dinostar A6005 pusat m88.com is recyclable, reducing production impact and making it an environmentally friendly choice.
Applications of Dinostar A6005 pusat m88.com
Dinostar A6005 pusat m88.com is often used in complex extruded structures such as: pipes for interiors, rail structures, bus frames, hangers, supports, pipelines, and mobile stairs. Specific applications include:
- Vehicle frame production:With high strength and hardness, Dinostar A6005 pusat m88.com is widely used in manufacturing vehicle frames, ensuring good load-bearing capacity.
- Window, door, and window frame production:With corrosion resistance and good durability, Dinostar A6005 pusat m88.com is an ideal material for outdoor applications, limiting corrosion from environmental impacts.
- Aerospace applications:Dinostar A6005 pusat m88.com is used in the production of parts for aircraft, such as aircraft frames.
- Temperature regulation or heat transfer components:With its relatively high thermal conductivity coefficient, Dinostar A6005 pusat m88.com is commonly used in the production of heat dissipation parts, cooling systems, and specialized pipes.
