Gr5 Ti6Al4V Lastre di titanio

Introduzione al prodotto

Gr5 Ti6Al4V Titanium Sheets last more than 3 times longer than copper plates, with a lifespan of 10 to 20 years depending on how they are used. They have a shape memory, meaning they can return to their original shape at a certain temperature. They also have a superconducting feature, so wires don’t heat up when large currents pass through, saving energy. These sheets are widely used in aerospace, rail transportation, car parts, medical equipment, engineering machinery, and the oil and gas industries.

Ti 6Al-4V Gr5 titanium sheets

Ti 6Al-4V, also known as GR5, is the most commonly used titanium alloy, making up 50% of the world’s titanium use. Its popularity comes from its many benefits. It can be heat-treated to make it stronger and used in temperatures up to 600°F for welding. This alloy is strong but lightweight, easy to shape, and highly resistant to corrosion.

Ti 6Al-4V is widely available and is ideal for industries like aerospace, medical, marine, and chemical processing. Titanium alloys are made by adding other elements to titanium. Below 882°C, titanium has a hexagonal structure (α phase), and above 882°C, it has a cubic structure (β phase).

Titanium alloy density is around 4.51g/cm³, which is about 60% of steel’s density. Some high-strength titanium alloys are even stronger than many steel alloys. Pure titanium is flexible, with high elongation and shrinkage rates, but has lower strength during shrinkage.

Impurities in titanium, like oxygen, nitrogen, and carbon, can greatly affect its strength and flexibility. By carefully controlling these impurities and adding the right alloying elements, titanium can be made into a strong, useful material for various industries.

It can be used to create the following technical content:

• Aircraft turbines
• Engine parts
• Structural components of aircraft
• Aerospace fasteners
• High-performance automatic parts
• Marine applications
• Sports equipment

Caratteristiche

Gr5 Ti6Al4V Titanium Sheets are lightweight yet very strong, making them an important material for industrial use. Titanium is a non-magnetic metal, so it doesn’t cause interference, which is why it’s used in areas like railroad engineering, communication, aerospace, high-tech labs, hospitals, outdoor work, chemical industries, and seawater applications. Additionally, titanium has low heat conductivity and good resistance to vibrations.

Reference standard

• GB 228 Tensile test method for metals
• GB/T 3620.1 Titanium and titanium alloy grades and chemical composition
• GB/T3620.2 Chemical composition and allowable deviation of titanium and titanium alloy products
• GB 4698 Sponge titanium, Titanium and ferroalloy chemical analysis method