Titanium CNC Machining Services
The titanium CNC machining services provided by FARWARDER have become a high-precision manufacturing partner for global customers. With 10 years of titanium machining experience, ±0.005mm machining accuracy, titanium machining costs 30% lower than those in Europe and the United States, and 7-day global delivery capabilities, we are your preferred Chinese titanium CNC machining manufacturer.
FARWARDER has provided titanium CNC machining services to more than 50 customers worldwide and delivered over 10,000 high-precision titanium parts. We can help you solve issues such as tool sticking and deformation during titanium CNC machining. FARWARDER’s specialization in titanium CNC machining is widely applied in aerospace, medical equipment, and other industries. From precision cutting to complex parts customization, we provide high-precision, cost-effective titanium CNC machining solutions to help your products enhance market competitiveness.
Product By Industry
Titanium is lightweight, high-strength, corrosion-resistant, and biocompatible. FARWARDER’s titanium CNC machining products are mostly used in the aerospace field, chemical energy, and automotive industries, such as fuselage structural parts, heat exchangers, and body parts. If you need any titanium CNC machining, please contact us.
Products by Material
FARWARDER can provide various brands of titanium CNC machining, such as TC4, TC4 ELI, TA2, TA18, TA1, etc. You can choose FARWARDER’s titanium CNC machining services according to your product requirements. We have rich experience and superb technology in machining various titanium grades to meet your diverse needs.
TC4 Titanium CNC Machining
TA2 Titanium CNC Machining
TA1 Titanium CNC Machining
Providing Customized Titanium CNC Machining Services
FARWARDER provides customized CNC titanium machining parts services with personalized size and shape design, provides precision manufacturing of titanium metal materials including military and medical grades, and provides high-performance CNC titanium processing solutions. FARWARDER has successfully solved common problems in titanium CNC machining, such as stress deformation, surface oxidation, welding pores, etc., with 12 patented titanium CNC machining technologies, including CNC turning. FARWARDER provides you with professional titanium CNC machining services and hopes that we can establish cooperation.
Quickly Respond to Needs and Efficiently Deliver Titanium CNC Machining Parts
FARWARDER’s titanium CNC machining service is flexible and supports single-piece customization and mass production. Our professional engineering team provides you with full-process services from drawing optimization to surface treatment, with 24-hour online response. To improve delivery efficiency, we have launched an order tracking system that allows you to view production progress in real time. For urgent needs, we provide rapid channel services to ensure that every titanium CNC machined part is delivered to you accurately and efficiently.
Quality is Guaranteed
FARWARDER provides you with full-process titanium CNC machining services, from raw material spectrum analysis upon warehouse entry to size re-inspection of semi-finished products. We strictly follow the requirements of the ISO9001 quality management system. Every titanium CNC machining part we manufacture undergoes strict testing to ensure that the factory’s qualified rate remains stable at more than 99.6%. We also pay special attention to environmental protection. Through the classification and recycling of titanium chips, we achieve 95% recycling of industrial waste, so you can use it with more confidence.
Titanium CNC machining methods include turning, milling, drilling, etc. Use sharp carbide tools, maintain low speeds but high feed rates, ensure sufficient coolant, and avoid overheating caused by prolonged contact between the tool and the workpiece. Additionally, roughing and finishing stages are employed to reduce cutting forces.
The low thermal conductivity of titanium during CNC machining causes heat to concentrate on the tool rather than the workpiece, accelerating tool wear; it is prone to vibration during cutting, resulting in rough surfaces. At high temperatures, it reacts with tool materials (such as carbides), causing severe tool sticking.
Preferably choose YBG series carbide or TiAlN-coated inserts, spray coolant directly into the cutting area to cool and remove chips; speed ≤ 150 m/min, feed rate 0.1-0.3 mm/rev, moderate depth of cut (to avoid excessive cutting forces).
