Titanium Grade 1, unalloyed Ti ("Pure") 35A alloy, It is...
Precision Titanium Machining for Global Industries
Global CNC machining partner for aerospace, medical & automotive sectors. ISO-certified, fast-turn titanium solutions from prototype to production.
• Material Expertise
• Global Supply Chain
• Rapid Response
mm Tight Tolerance
±
0.05
Years of Expertise
10
+
Countries Served
50
+
Days Rapid Prototyping
15
CNC Titanium Services
Titanium parts from small to large, prototype to production run, you can always count on HDC
CNC Turning
Precision turning for cylindrical or rotational parts like shafts and axles.
- 15 CNC lathes
- Ø1000×500mm max. workpiece
- ±0.05mm tolerance
- Live tooling for milling-turning
- High quality finishing
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CNC Milling
5-axis machining for complex aerospace-grade titanium structures.
- 3/4/5-axis milling
- Large work envelope: 1270×508mm
- ±0.01mm precision
- Deep-cavity machining
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Rapid Prototyping
Functional CNC titanium prototypes in 15 days to rocket your business.
- 24h quick response
- Design optimization
- 5-axis quick prototyping
- Post treatment capabilities
- 3D printing prototype
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Materials & Post Treatment
Comprehensive titanium alloys and post-treatment bring you the best fit titanium parts
Titanium Alloys
Gr5(Ti-6Al-4V)
The most commonly used and widely applied titanium alloy
Gr23(Ti-6Al-4V ELI)
Better version of Gr5 with higher toughness and ductility
Gr6(Ti-5Al-2.5Sn)
Machinability is inferior to Gr5, but it offers better high-temperature strength
Gr9(Ti-3Al-2.5V)
Strength is between pure titanium and Gr5, suitable for cold working
Ti-10V-2Fe-3Al
One of the highest strengths among heat-treatable β-type alloys
Post Treatment
Heat Treatment
Reduces residual stress during processing and increases strength
Blasting
Remove surface imperfections and introduce compressive stress layers
Coating
Enhance surface functions, such as improving hardness and wear resistance
Pickling
Remove surface oxides to prepare for subsequent processing
Anodizing
Improve surface hardness, wear resistance, and corrosion resistance
Need More Options?
Our CNC titanium service goes beyond the options shown above. We provide material and finishing solutions based on your project requirements.
Industry We Serve
Titanium is valued by many industries for its excellent strength-to-weight ratio and corrosion resistance
Aerospace
- Fuselage structural parts (trusses, joints, bolts, screws)
- Engine components (compressor discs, blades, seal brackets)
Medical
- Orthopedic implants (artificial hip joints, bone screws)
- Dental implants (implants, abutments)
- Surgical instruments (surgical forceps, scissors, retractors)
Marine
- Pipes, fittings, valve bodies
- Pump housing, impeller, shaft
Sports Equipment
- Bicycle frame (fork, crank, stem, seat post clamp)
- Golf equipment
- Tennis racket/badminton racket
- Mountaineering/outdoor equipment
Racing
- Racing/Supercar (connecting rods, valves, turbocharger impellers)
- Motorcycles (shock absorber parts, brake calipers, pedals)
Rigorous Quality Control
Backed by international standards, professional engineering team, mature quality control process, and advanced equipment, we are confident to provide you with titanium alloy products that perfectly meet your needs.
International Certifications:
✓ AS9100
✓ IATF 16949
✓ ISO 9001:2015
✓ ISO 14001:2015
Certified Quality Systems
ISO 13485 certified processes guaranteeing compliance for aerospace & medical sectors.
Rigorous Process Control
100% First Article Inspection & Statistical Process Control (SPC) on critical dimensions.
End-to-End Traceability
Fully documented material & process history from raw stock to final shipment.
Titanium-Specific Mastery
Dedicated process & tooling preventing machining defects and ensuring excellent quality
Why Choose HDC
See how our expertise can solve your most challenging titanium part requirements
Titanium Expertise
Decades of experience in titanium alloy processing. We solve the manufacturing challenges of complex, high-precision parts in aerospace, medical, and demanding industries.
Global Certification
AS9100 & ISO certified. Rigorous processes, full traceability, advanced inspection (CMM) ensure parts meet your strictest specs, every time
Advanced Equipment
State-of-the-art 5-axis CNC, optimized for machining titanium. Achieve intricate design, complex geometries, tight tolerances, and superior finish quality.
Global Collaboration
Dedicated English-speaking team, proactive communication. Clear project management and hassle-free global logistics. Your partner, not just a supplier.
More About HDC
Equipment, certifications, and factory live footage, learn more about our factory
| Equipment Type | Quantity |
|---|---|
| 5-Axis Machining Center | 4 |
| 4-Axis Machining Center | 15 |
| 3-Axis Machining Center | 23 |
| CNC Lathe | 15 |
| Wire-Electrode Cutting | 1 |
| CNC Tube Bending Machine | 1 |
| Vibratory Deburring Machine | 2 |
| Welding Machine | 3 |
| Coordinate Measuring Machine | 1 |
| Rockwell Hardness Tester | 1 |
| Surface Roughness Tester | 1 |
| Height Gauge | 2 |
| Depth Gauge | 2 |
Challenges in CNC Machining Titanium
CNC machining titanium alloys are considered challenging, mainly due to their following physical and chemical properties:
- Poor thermal conductivity: The heat generated during the cutting process cannot be quickly transferred through the workpiece or chips, resulting in a high concentration of heat in the cutting area. Extremely high local temperatures accelerate tool wear and can compromise surface integrity
- High chemical reactivity: At high temperatures, titanium reacts with oxygen, nitrogen, and hydrogen in the air, and easily reacts and sticks to most tool coating materials, especially those containing C. This leads to severe built-up edge and peeling of the tool coating, which further exacerbates tool wear and deterioration of cutting surface quality.
- Low elastic modulus: Titanium’s modulus of elasticity (stiffness) is about half that of steel. During machining, the workpiece is more prone to
- elastic deformation and vibration Elastic deformation and vibration under the action of cutting force, which affects the dimensional accuracy and shape accuracy. Springback after machining can also lead to dimensional out-of-tolerance.
- Work hardening tendency: Titanium alloys harden significantly during plastic deformation. This will cause the material below the cutting edge to harden, making subsequent cutting more difficult, accelerating tool wear, and potentially causing microscopic cracks on the surface.
- High strength: Even at the high temperatures generated by machining, titanium alloys retain high strength. It requires greater cutting force, increased power consumption, and high requirements for machine rigidity.
- Chip handling: Titanium alloy chips are usually thin and curled, and poor thermal conductivity leads to local high temperatures, which can easily adhere to the tool or workpiece, scratch the machined surface, interfere with coolant flow, affect chip evacuation, and even cause fire risks.
FAQ
Learn more about our metal forging service.
We specialize in machining all types of titanium alloys, including Gr 1, 2, Gr 5, Gr 23, Gr 9 and more.
All raw materials are sourced from reputable, compliant suppliers and a full material certification report is provided to ensure that composition, mechanical properties and traceability are up to standard
Typical machining range: sizes from 10 mm to 500 mm with tolerances of ±0.05 or more (depending on feature and material).
Please provide your specific drawings and we will evaluate the feasibility and provide manufacturing suggestions
Getting an accurate quote is easy: please provide your part drawings (PDF, STEP, IGES, etc.), material specifications (grades, standards), quantities and any special requirements (e.g. surface treatment, special testing).
You can submit it through [Online Inquiry Form], [Email] or contact our sales engineers directly. We usually provide a detailed quote within 24 hours
We understand the need for innovation and focus on prototype development and low-volume production.
For titanium alloy parts, we offer flexible MOQs, usually as low as 1 piece. Whether you need rapid proofing to validate your design, or a small batch of pilot production, we can support you efficiently.
The standard lead time depends on the complexity of the part and the current schedule, but is usually 3-6 weeks.
Of course! After you submit the drawings, our engineers will review the design and make suggestions for optimization (e.g. simplifying machining, reducing costs, increasing strength).
We use customized packaging that is scratch-resistant, moisture-proof, and shock-proof. We cooperate with major international logistics providers (such as DHL, FedEx, UPS) to provide door-to-door services (DDP/DAP, etc.).
We will advise you on the best shipping options based on the characteristics, value and timeliness of your parts, and handle all export documentation.
We support various secure international payment methods, including wire transfer (T/T) (commonly used, deposit + balance) and L/C. Specific terms will be clearly agreed upon upon order confirmation.
We practice strict quality control and problems are rare. However, in this case, please notify your account manager immediately and provide relevant evidence (photos, test reports).
We will quickly investigate the cause and fully cooperate to resolve it, including rework, redo, or negotiate other solutions, to ensure your satisfaction.
Contact Us Today
Stop struggling with inconsistent quality, technical limitations, or unreliable partners. Contact us today for a solution!
Request Free Quote
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