Tue6h (ТУЕ6Ч)
TUE6H Titanium Alloy: High-Strength Material for Aerospace Applications
TUE6H Titanium a high-performance titanium alloy primarily used in aerospace applications. It is known for its exceptional mechanical strength, corrosion resistance, and ability to perform under extreme temperature and stress conditions. This alloy is designed to withstand the harsh environments encountered in the aerospace industry, including exposure to high altitudes, extreme temperatures, and chemical environments. TUE6H titanium combines the advantages of strength and light weight, making it an ideal material for critical components in aircraft such as engines, landing gear, structural parts, and heat exchangers. Its unique properties ensure longevity, durability, and performance, which are crucial for maintaining the safety and efficiency of aerospace systems. Additionally, TUE6H titanium offers high resistance to fatigue, oxidation, and corrosion, making it a reliable material for components subjected to continuous mechanical stress.
Overview of TUE6H Titanium Alloy
TUE6H titanium is a high-performance alloy specifically engineered for aerospace applications. It is renowned for its exceptional mechanical strength, corrosion resistance, and ability to perform in extreme environments, making it a top choice for aircraft manufacturing. TUE6H is lightweight yet durable, making it ideal for high-stress and temperature-sensitive applications within the aerospace industry.
This alloy is available in various forms, such as rods, sheets, and custom parts, ensuring that it meets the precise requirements of aerospace manufacturers. Russian Metals offers certified TUE6H titanium stock, ensuring consistent quality and reliable performance.
Characteristics of the material Tue6h
| Grade : | Tue6h |
| Classification : | Titanium wrought alloy |
| Application: | for the production of stamped and welded parts in aircraft construction |
| Foreign analogues: | No data |
Key Properties of TUE6H Titanium: Strength, Durability & Corrosion Resistance
TUE6H titanium alloy is known for its exceptional properties that make it suitable for aerospace applications:
Strength
TUE6H titanium is known for its high tensile strength, which allows it to withstand the high mechanical loads placed on aircraft components.
Corrosion Resistance
The alloy provides excellent resistance to corrosion, even in aggressive environments like saltwater or chemicals often encountered in aerospace applications.
Thermal Resistance
TUE6H retains its strength at high temperatures, making it ideal for use in engine components and other parts exposed to significant thermal stress.
Chemical composition in % of material Tue6h
GOST -90013 - 81
| Fe | C | Si | V | N | You | Al | O | H | Impurities |
|---|---|---|---|---|---|---|---|---|---|
| up to 0.4 | up to 0.1 | up to 0.07 | 3.5 - 4.5 | up to 0.05 | 87.62 - 90.63 | 5.5 - 6.75 | 0.07 - 0.2 | up to 0.01 | other 0.3 |
Mechanical and Physical Properties Definitions
Below are the definitions and units for key mechanical and physical properties commonly used for titanium alloys:
Mechanical Properties of the material Tue6h
| Property | Description | Unit |
|---|---|---|
| σin (Tensile Strength) | Maximum stress the material can withstand under tension | MPa |
| σT (Yield Stress) | Stress at which a material begins to plastically deform | MPa |
| δ5 (Specific Elongation at Fracture) | Elongation of the material until fracture occurs | % |
| ψ (Reduction of Area) | Percentage decrease in the cross-sectional area at the fracture point | % |
| KCU (Impact Strength) | Material's ability to absorb energy during fracture under impact | kJ/m² |
| HB (Brinell Hardness) | Measure of material's hardness using a spherical indenter | HB (Brinell hardness number) |
Physical Properties of the material Tue6h
| Property | Description | Unit |
|---|---|---|
| T (Test Temperature) | The temperature at which the material is tested | Grade |
| E (Young's Modulus) | Measure of material's elasticity, indicating its ability to resist deformation | MPa |
| α (Coefficient of Linear Expansion) | Rate of expansion per degree of temperature change (20° - T) | 1/Grade |
| λ (Thermal Condition Coefficient) | Material's ability to conduct heat | Watt/(m·Grade) |
| ρ (Density) | Mass per unit volume of the material | kg/m³ |
| C (Specific Heat) | Amount of heat required to raise the temperature of a unit mass of the material (range 20° - T) | J/(kg·Grade) |
| R (Electrical Resistance) | Material's resistance to electrical current flow | Ohm·m |
Corrosion Resistance of TUE6H Titanium in Extreme Aerospace Environments
TUE6H titanium offers outstanding resistance to corrosion, particularly in aerospace environments where components are exposed to harsh conditions like high altitudes, saltwater, and extreme temperatures. Its corrosion resistance ensures that aircraft parts made from TUE6H maintain their integrity over time, reducing the need for maintenance and enhancing the overall lifespan of the components. This makes it a cost-effective choice for aerospace manufacturers looking for long-term reliability.
Mechanical and Thermal Properties of TUE6H for Aircraft Structures
TUE6H titanium has a unique combination of mechanical and thermal properties that make it ideal for use in aircraft structures:
Mechanical Strength
TUE6H boasts a high tensile strength and resistance to fatigue, making it suitable for critical structural components in aircraft.
Thermal Stability
The alloy can perform under high-temperature variations, retaining its strength and integrity in engine components and other thermally exposed parts.
Lightweight
Despite its strength, TUE6H titanium is much lighter than other alloys, making it an ideal choice for reducing overall aircraft weight and improving fuel efficiency.
Why Choose TUE6H Titanium for Aircraft Manufacturing?
TUE6H titanium is a superior material choice for aircraft manufacturing due to its unique combination of properties that make it the ideal material for high-performance applications:
Lightweight yet Strong
TUE6H provides excellent strength-to-weight ratios, making it ideal for components where both strength and weight reduction are crucial.
Corrosion Resistance
Its excellent resistance to corrosion ensures that components made from TUE6H will last longer with minimal maintenance.
Thermal and Mechanical Stability
TUE6H titanium is engineered to withstand extreme conditions, including high temperatures and mechanical stress, which are commonly encountered in aerospace applications.
Note: Ti is the basis; Ti percentage is approximate.
Note: According to customer's requirement, content < 0.13%
Contact Us for Tue6h Titanium Orders
For more information or to place an order, contact Russian Metals today. We specialize in providing the best quality GOST Tue6h Titanium at competitive prices for industrial, defense, and aerospace applications.