CNC machining titanium parts is a key solution for high-performance applications.
Custom CNC machining titanium parts are components made from titanium material using CNC machining equipment tailored to the specific requirements of clients.
Titanium is a metal known for its high strength, light weight, and excellent corrosion resistance, making it ideal for industries such as aerospace, medical devices, and automotive manufacturing. Custom CNC machining allows for the production of high-precision titanium parts that meet specific application demands, addressing challenges in complex structures and high-performance requirements.
Custom CNC machining titanium parts offer several key advantages.
Titanium has the strength of steel but only about 40% of the weight, allowing for weight reduction while maintaining high strength. Second, titanium provides excellent corrosion resistance, especially in marine environments and chemical industries, where it resists rust and degradation.
Titanium’s biocompatibility makes it a preferred material for medical applications such as implants and surgical instruments.
Through custom CNC machining, titanium parts can meet complex geometric requirements and provide precise, high-performance solutions.
Custom CNC machining titanium parts are widely used across various industries. In aerospace, titanium parts reduce weight while enhancing the durability of aircraft. In the medical field, titanium is used to manufacture implants and surgical tools. The automotive industry incorporates titanium components to improve vehicle performance and fuel efficiency. Titanium’s corrosion resistance makes it ideal for marine engineering and chemical industry equipment. Whether for high-strength, high-temperature, or corrosion-resistant applications, custom titanium parts offer versatile and reliable solutions.
Five-axis CNC machining is the ideal solution for manufacturing complex titanium parts, especially for industries such as aerospace and medical devices that require high precision and complex geometries. Our company is equipped with advanced five-axis CNC machines capable of machining intricate surfaces and multi-angle features, allowing us to machine complex parts in a single setup. This improves both efficiency and accuracy. The high flexibility and precision control of our five-axis machining processes enable us to handle even the most challenging titanium projects, ensuring top-quality results and on-time delivery.
Partnering with us is easy. You can start by sharing your designs or technical drawings with us, and our engineering team will work closely with you to discuss technical requirements and propose the best machining solutions. We provide sample parts to ensure that the precision and quality meet your expectations before moving to full-scale production. Whether it’s prototype development or large-scale manufacturing, we offer flexible machining services to ensure your project runs smoothly. We also support global logistics for timely delivery.
Material Name | Chinese GB Standard | Characteristics | Main Composition |
Ti-6Al-4V | TC4 | Most widely used titanium alloy, high strength, excellent corrosion resistance, ideal for aerospace and medical applications. | 6% Aluminum, 4% Vanadium, 90% Titanium |
Ti-6Al-6V-2Sn | TC9 | Higher strength, good high-temperature resistance, used in high-temperature, high-pressure environments such as aircraft engines. | 6% Aluminum, 6% Vanadium, 2% Tin, balance Titanium |
Ti-3Al-2.5V | TA18 | Good ductility and machinability, commonly used in aerospace and oil pipelines. | 3% Aluminum, 2.5% Vanadium, balance Titanium |
Ti-5Al-2.5Sn | TA7 | Excellent high-temperature resistance, suitable for high-temperature structures like turbine engines. | 5% Aluminum, 2.5% Tin, balance Titanium |
Ti-15V-3Cr-3Al-3Sn | TB5 | Extremely high strength and toughness, mainly used for high-strength aerospace structural components. | 15% Vanadium, 3% Chromium, 3% Aluminum, 3% Tin, balance Titanium |
Ti-6Al-2Sn-4Zr-2Mo | TC11 | Excellent high-temperature strength, used in turbine engines and high-temperature parts. | 6% Aluminum, 2% Tin, 4% Zirconium, 2% Molybdenum, trace Silicon, balance Titanium |
Ti-6242S | TC17 | High-temperature strength, works in 550-600°C environments, widely used in turbine engines and gas turbines. | 6% Aluminum, 2% Tin, 4% Zirconium, 2% Molybdenum, trace Silicon, balance Titanium |
Ti-8Al-1Mo-1V | TB2 | Good high-temperature strength and creep resistance, used in high-temperature structural components like engine blades. | 8% Aluminum, 1% Molybdenum, 1% Vanadium, balance Titanium |
Ti-10V-2Fe-3Al | TB6 | Very high strength, good machinability and weldability, suitable for high-strength aircraft structures and fuselage. | 10% Vanadium, 2% Iron, 3% Aluminum, balance Titanium |
Ti-0.2Pd | TA9 | Excellent corrosion resistance, used in chemical equipment and marine environments. | 0.2% Palladium, balance Titanium |