Our Grade 5 Titanium CNC machining service offers precision manufacturing for complex components used in various industries. Grade 5 Titanium (Ti-6Al-4V) is known for its high strength-to-weight ratio, corrosion resistance, and ability to withstand extreme conditions. It is commonly utilized in aerospace, automotive, and medical sectors for critical parts.
We specialize in producing high-quality Grade 5 Titanium parts that meet tight tolerances and specifications. Our machining process ensures consistency in each batch, minimizing material waste while maintaining dimensional accuracy. The components are inspected using precise measurement instruments to guarantee compliance with your requirements.
For industries requiring durable and reliable titanium components, our Grade 5 Titanium CNC machining service provides a solution that balances performance and quality.
Grade 5 Titanium (Ti-6Al-4V) is a widely used material in CNC machining due to its excellent balance of strength, lightweight properties, and corrosion resistance. Below is a detailed breakdown of its key characteristics, including numerical values, advantages, and disadvantages.
- Titanium: 88.74%
- Aluminum: 6.0%
- Vanadium: 4.0%
- Oxygen: 0.2%
- Iron: 0.25%
- Carbon: 0.08%
- Nitrogen: 0.05%
- Hydrogen: 0.015%
- Tensile Strength: 950 MPa (minimum)
- Yield Strength: 880 MPa (minimum)
- Elongation: 10% (minimum)
- Modulus of Elasticity: 110 GPa
- Hardness: 35 HRC (Rockwell Hardness)
- 4.43 g/cm³ (approximately 60% of steel's density), making it suitable for applications where weight reduction is critical.
- Melting Point: 1660°C
- Thermal Conductivity: 6.7 W/m·K
- Coefficient of Thermal Expansion: 8.6 µm/m·K
- Grade 5 Titanium offers superior corrosion resistance in environments containing chloride ions and marine conditions due to its stable oxide layer.
Grade 5 Titanium combines high strength with low density, making it an ideal choice for components where weight needs to be minimized without sacrificing mechanical performance.
Its biocompatible nature allows for safe use in medical implants and devices, ensuring compatibility with human tissues.
Withstanding temperatures up to 400°C without losing mechanical properties, Grade 5 Titanium is suitable for high-temperature applications.
The material’s resistance to various types of corrosion, including seawater and acidic environments, makes it reliable for marine and chemical processing applications.
Due to its high strength and low thermal conductivity, Grade 5 Titanium is challenging to machine. Cutting tools may wear out faster, requiring precise CNC parameters and specialized tooling.
The production and machining of Grade 5 Titanium components are generally more expensive compared to other metals due to the complex extraction process and tooling requirements.
Though strong, it is not always suitable for extremely high-stress applications where more robust alloys might be necessary.
In the automotive sector, Grade 5 Titanium (Ti-6Al-4V) is favored for its high strength-to-weight ratio, corrosion resistance, and mechanical properties, making it ideal for manufacturing small, precise components. These parts are primarily used in high-performance and racing applications to enhance overall vehicle performance while reducing weight.
Titanium is used to manufacture intake and exhaust valves for high-speed engines. It withstands high temperatures while maintaining strength, reducing engine load and improving fuel efficiency.
In high-performance engines, titanium alloy connecting rods reduce the weight of the engine components while maintaining durability, minimizing engine vibrations, and enhancing performance.
Small titanium exhaust pipes and manifolds can handle high-temperature environments, decreasing the exhaust system weight and lowering the vehicle's center of gravity.
These compact and precise parts leverage titanium’s strength and low density to achieve rapid acceleration and high efficiency in turbocharger assemblies.
In the mechanical and engineering fields, Grade 5 Titanium is used for high-strength, high-precision components that must remain stable in various complex environments. Titanium alloy small mechanical parts are known for their long-term reliability and performance under challenging conditions.
Titanium bearing housings are critical components in precision machinery, providing high stability and reducing wear over long operating periods.
Used in high-pressure hydraulic systems, titanium valve bodies and spools resist deformation in high-pressure environments.
Small titanium alloy gears and transmission shafts can handle high-load power transmission while improving mechanical efficiency and reducing overall weight.
Such as mechanical seals or rotary sleeves, titanium is suitable for high-speed operation, ensuring balance and precision in rotating assemblies.
In the medical device industry, Grade 5 Titanium is widely used due to its biocompatibility, safety, and excellent mechanical properties. It is commonly utilized for manufacturing small and precise implants and surgical instruments.
Used in fracture fixation, these titanium components can integrate firmly with bone material, ensuring structural stability without triggering adverse biological reactions.
Small titanium dental posts or bridges replace missing tooth roots, providing long-term stability and durability for dental restoration.
Titanium-made surgical forceps, scissors, or probes are durable and corrosion-resistant, maintaining performance during lengthy surgical procedures.
Small titanium spinal screws and connecting rods are used to correct spinal deformities or stabilize vertebral structures during post-surgery recovery.
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