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Titanium Machining Services

Titanium CNC machining delivers high-precision parts from titanium alloys, known for exceptional strength-to-weight ratio, corrosion resistance, and biocompatibility. Using advanced milling, turning, and drilling, it supports aerospace, medical, automotive, and industrial applications, ensuring tight tolerances, durability, and superior performance in demanding environments.

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Precision Titanium CNC Machining Services
SpecificationCapabilityDetails
Dimensional Tolerance±0.001″ – ±0.005″Precision varies based on part complexity and size
Surface Finish16-125 RMSCustomizable based on application requirements
Maximum Part DimensionsUp to 24″ × 16″ × 10″Larger parts possible with multi-setup machining
Minimum Feature Size0.010″Dependent on aspect ratio and material grade
Maximum WeightUp to 500 lbsSpecialized fixturing available for heavy components
Production VolumePrototypes to 10,000+ unitsOptimized processes for both low and high volumes

Understanding Titanium in CNC Machining

Titanium has become the material of choice for high-performance applications across multiple industries due to its exceptional properties. However, these same properties present unique challenges in the machining process that require specialized expertise and equipment.

Key Properties of Titanium

  • Exceptional strength-to-weight ratio – 40% lighter than steel with comparable strength
  • Outstanding corrosion resistance – Naturally forms a protective oxide layer
  • Biocompatibility – Non-toxic and not rejected by the human body
  • Low thermal conductivity – Retains heat at the cutting zone
  • High temperature resistance – Maintains strength at elevated temperatures
  • Low modulus of elasticity – More flexible than steel

Expert Titanium Machining for Your Critical Applications

With decades of experience machining titanium components, our team delivers precision parts that meet your exact specifications.

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Titanium Machining Challenges & Solutions

Strengths of Titanium

Superior corrosion resistance in harsh environments
Exceptional strength-to-weight ratio for lightweight applications
Biocompatibility for medical implants and devices
Non-magnetic properties for specialized applications
Excellent fatigue resistance for cyclical loading

Machining Challenges

Low thermal conductivity causes heat buildup at cutting edge
Work hardening during machining increases tool wear
Chemical reactivity with cutting tools at high temperatures
Spring-back effect due to elasticity requires special tooling
Higher tooling costs and longer machining times

Our specialized approach includes high-pressure coolant systems, optimized cutting parameters, rigid fixturing, and specialized tooling designed specifically for titanium alloys. This comprehensive strategy ensures consistent quality while maximizing tool life and production efficiency.

Titanium Grades for CNC Machining

Fecision works with all commercially available titanium grades and alloys.
Our expertise allows us to recommend the optimal titanium grade based on your application requirements, balancing performance needs with cost considerations.

TA1
Grade 1

  • Characteristics: Low strength, high ductility and corrosion resistance; good formability
  • Common Applications: Chemical process, heat exchangers, marine, medical

Tensile Strength (MPa)

Yield Strength (MPa)

Fatigue Strength (MPa)

Hardness (Brinell)

Elongation at Break (%)

Density (g/cm³)

Maximum Temp (°C)

≥345

≥240

≈140–170

≈4.50

≥30

≈4.50

≈300–350

TA2
Grade 2

  • Characteristics: Medium strength, good balance of strength/ductility/corrosion
  • Common Applications: Chemical, marine, power gen., heat exchangers

Tensile Strength (MPa)

Yield Strength (MPa)

Fatigue Strength (MPa)

Hardness (Brinell)

Elongation at Break (%)

Density (g/cm³)

Maximum Temp (°C)

≥450

≥345

≈170–200

≈130–160

≥25

≈4.50

≈300–350

TA4
Grade 4

  • Characteristics: Higher strength than CP Ti; good weldability; limited cold formability
  • Common Applications: Structural components, fasteners, filler wire

Tensile Strength (MPa)

Yield Strength (MPa)

Fatigue Strength (MPa)

Hardness (Brinell)

Elongation at Break (%)

Density (g/cm³)

Maximum Temp (°C)

≈550–650

≈450–550

≈200–250

≈150–190

≈15–20

≈4.50

≈400–450

TC4
Ti-6Al-4V

  • Characteristics: High strength, good fatigue and fracture toughness; wide use
  • Common Applications: Aerospace structures, medical implants, sports goods

Tensile Strength (MPa)

Yield Strength (MPa)

Fatigue Strength (MPa)

Hardness (Brinell)

Elongation at Break (%)

Density (g/cm³)

Maximum Temp (°C)

≥900

≥825

≈300–350

≈220–260

≥10

≈4.51

≈350–400

TC6
Ti-6Al-2Mo-2Cr

  • Characteristics: Medium-high strength, good hardenability, wear resistance
  • Common Applications: Landing gear, engine components, forgings

Tensile Strength (MPa)

Yield Strength (MPa)

Fatigue Strength (MPa)

Hardness (Brinell)

Elongation at Break (%)

Density (g/cm³)

Maximum Temp (°C)

≈950–1050

≈850–950

≈300–350

≈240–280

≈8–12

≈4.52

≈350–400

Titanium CNC Machining Surface Finishing Options

Surface finishing plays a crucial role in both the aesthetics and functionality of titanium components.
Fecision offers a comprehensive range of surface finishing options to meet your specific requirements.

Bead Blasting

Creates a uniform matte finish by propelling fine glass beads at high pressure against the titanium surface. Ideal for removing machining marks and creating a consistent appearance.

Anodizing

Electrochemical process that creates a controlled oxide layer, offering both decorative coloring options and enhanced surface hardness. Available in Type II (thin film) and Type III (thicker, more durable).

Electropolishing

Produces a mirror-like finish by removing a microscopic layer of material through an electrochemical process. Reduces surface roughness and improves corrosion resistance.

Passivation

Chemical process that removes free iron and other contaminants from the surface while enhancing the natural oxide layer. Improves corrosion resistance without dimensional changes.

Mechanical Polishing

Achieves smooth surfaces through progressive abrasive processes. Can range from satin finishes to high mirror polish depending on the application requirements.

Laser Marking

Creates permanent, high-contrast markings without affecting the material properties. Ideal for part identification, serialization, and branding on medical and aerospace components.

Titanium CNC Machining Application

Industries We Serve

Titanium's unique combination of properties makes it invaluable across numerous industries. At Fecision, we produce precision titanium components for the most demanding applications where performance, weight, and reliability are critical.

Medical & Dental

Orthopedic & dental implants
Prosthetics & surgical instruments
Medical device components
Custom surgical guides
MRI-compatible equipment
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Aerospace & Defense

Structural components & fasteners
Engine components & turbine blades
Landing gear components
Hydraulic systems
Satellite & spacecraft parts
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Automotive & Racing

Valve train components
Connecting rods and fasteners
Exhaust systems
Suspension components
Turbocharger wheels
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Industrial & Chemical

Heat exchangers and reactors
Pump components and valves
Offshore and marine equipment
Specialized fasteners
Pressure vessels
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Titanium Machining FAQs

Yes, Fecision specializes in medical-grade titanium machining. We maintain strict quality control processes that comply with ISO 13485 standards for medical device manufacturing. Our facility is equipped to handle biocompatible titanium alloys like Grade 23 (Ti-6Al-4V ELI), and we provide full material traceability and certification. All medical components undergo rigorous inspection and can be processed in our controlled environment to prevent contamination.
We accommodate orders of all sizes, from single prototypes to high-volume production runs. There is no minimum order quantity for titanium CNC machining services. However, economies of scale do apply, so unit costs typically decrease with larger quantities. Our team can provide pricing options for different production volumes to help you make the most cost-effective decision.
Quality assurance is integrated throughout our manufacturing process. We employ a comprehensive inspection protocol including CMM (Coordinate Measuring Machine) verification, optical measurement systems, and material testing when required. Each titanium component is inspected against the original specifications, and we provide detailed inspection reports with every order. Our quality management system ensures consistent results that meet or exceed industry standards.
Lead times vary based on part complexity, quantity, and current production schedule. Typical lead times range from 1-2 weeks for simple components to 3-4 weeks for complex parts requiring multiple operations or special finishing. Rush services are available for time-sensitive projects. During the quoting process, we provide accurate lead time estimates based on your specific requirements.
Safety is paramount when machining titanium. We implement multiple safeguards including high-pressure coolant systems, specialized cutting parameters, and strict housekeeping protocols to prevent titanium chip accumulation. Our machines are equipped with fire suppression systems, and our operators are trained in titanium-specific safety procedures. These comprehensive measures ensure safe and efficient titanium machining operations.

Request a Quote for Titanium CNC Machining

Our technical team is available to discuss your titanium CNC machining requirements and provide immediate assistance.

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