1.Extreme Dimensional Stability: Titanium maintains its shape and tolerances even under significant thermal stress.
2.Complex Geometries: Advanced 5-axis CNC machining allows for "organic" shapes used in aerospace bulkheads and medical implants.
3.Superior Surface Integrity: Can be finished to extremely low roughness ($Ra$) values, essential for high-vacuum seals and bearing surfaces.
4.Strength at Temperature: Unlike aluminum, machined titanium parts retain their structural integrity at temperatures up to 500°C.
5.Corrosion-Free Precision: Ideal for "set-and-forget" components in subsea or chemical environments where maintenance is impossible.
The choice of process depends on the part's symmetry and complexity.
Process | Best For | Capabilities |
CNC Turning | Cylindrical parts, shafts, bushings | High-speed rotation, excellent concentricity |
CNC Milling | Prismatic parts, housings, brackets | 5-axis movement for complex 3D contours |
Wire EDM | Ultra-thin slots, sharp internal corners | Stress-free cutting of hardened titanium |
Swiss Machining | Micro-parts (screws, pins) | High-volume, small diameter precision |
Grade | Type | Characteristics | Best For |
Grade 2 | Commercially Pure | Highly ductile, excellent corrosion resistance. | Chemical processing, marine parts. |
Grade 5 | Ti-6Al-4V | The "workhorse." High strength, heat treatable. | Aerospace, medical implants, racing. |
Machining titanium is more expensive than steel or aluminum; smart design can significantly lower costs.
Avoid Deep Pockets: Tools can vibrate (chatter) in deep cavities. Keep depth-to-width ratios below 4:1.
Large Internal Radii: Tiny corner radii require small, fragile tools that break easily in titanium. Use the largest possible radius.
Thread Depth: Titanium is so strong that threads deeper than 2x the diameter add little strength but significantly increase the risk of tap breakage.
Wall Thickness: Maintain a minimum wall thickness of 0.5 mm to prevent the part from warping due to machining heat.

Post-machining treatments enhance both the performance and the appearance of the part.
Anodizing (Type II & III): Increases wear resistance and provides color coding (Type II) or a thick, protective grey oxide layer (Type III).
Passivation: A chemical treatment that maximizes the natural protective oxide layer for medical or high-purity use.
Bead Blasting: Provides a uniform, matte "satin" finish and hides tool marks.
Electropolishing: Removes microscopic surface peaks to create a mirror-like, ultra-clean surface.
PVD Coating: (Physical Vapor Deposition) Adds an ultra-hard layer (like TiN) to increase surface hardness and reduce friction.
1. "Why is titanium more expensive to machine than stainless steel?"
The Answer: Titanium has low thermal conductivity, meaning heat doesn't leave with the "chip"—it stays at the tool's edge. This requires slower cutting speeds, specialized carbide tools, and high-pressure coolant, all of which increase machine time and tool costs.
2. "What tolerances can be achieved with titanium?"
The Answer: Standard CNC machining can achieve ±0.025 mm. With precision grinding or EDM, we can reach tolerances as tight as ±0.005 mm.
3. "Can you machine Grade 5 (Ti-6Al-4V) titanium?"
The Answer: Yes. While Grade 5 is much stronger thanGrade 2, it actually chips better (less "gummy"), making it very popular for precision machined parts despite the higher tool wear.
4. "How do you ensure there are no stress cracks in the part?"
The Answer: We use "Stress Relieving" (vacuum annealing) between machining stages if the part is highly complex. Additionally, Dye Penetrant Inspection (DPI) is used to verify the surface is free of microscopic defects after machining.
5. "Is there a minimum order quantity (MOQ) for custom parts?"
The Answer: We handle everything from Prototyping (1-10 pcs) to Series Production (1000+ pcs). Prototyping is often done via 5-axis milling to avoid the cost of custom jigs or molds.
Robust provides high-quality CNC Machined Titanium Parts Supplier for Aerospace, Medical and Industrial Use solutions for industrial, high-temperature, and precision engineering applications worldwide.
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