CNC MACHINING CASE STUDIES
Precision Parts We’ve Delivered for
Radar, Communication & Semiconductor
Real machining projects for high-tech equipment manufacturers — held to ±0.005mm. See the challenge, our approach, and the measurable result behind each part.
- ✓ Mission-critical parts in production
- ✓ Tolerance to ±0.005mm
- ✓ Al / Stainless / Ti & more
- ✓ Batch-consistent, CMM-verified
● ±0.005mm
BY THE NUMBERS
Results That Engineers Trust
A snapshot of the performance behind our precision machining projects.
±0.005mm
Positional tolerance held across full production batches.
✓ CMM-verified every batch.
5-Axis
Complex multi-face parts machined in a single setup.
✓ Less stack-up error.
24h
Engineering DFM review and quote turnaround.
✓ Faster to first part.
5+
High-tech industries served, from RF to semiconductor.
✓ Cross-sector expertise.
FEATURED PROJECTS
Challenge, Approach, Result
Four representative parts that show how we hold tight tolerances on demanding, mission-critical applications.
AUTOMOTIVE · ADASRF / mmWave
mmWave Radar Waveguide Housing
Challenge: A mmWave radar module required waveguide channels with tight dimensional stability — any deviation degraded signal performance.
Approach: 3/4-axis milling of 6061 aluminum with in-process CMM checks and anodizing with dimensional compensation.
±0.005mm channel tolerance held across the batch; RF-grade surface and repeatable signal performance. Materials: aluminum, anodized.
SEMICONDUCTORVACUUM-GRADE
Semiconductor Vacuum Chamber Component
Challenge: A wafer-equipment part needed high cleanliness, particle control and tight flatness for a vacuum seal.
Approach: Precision milling of stainless steel, controlled deburring, and high-cleanliness finishing with traceable material certs.
Particle-controlled, vacuum-grade part with flatness down to 0.01mm and full material traceability. Materials: stainless, PEEK.
AEROSPACE · UAV5-AXIS Ti
UAV Titanium Structural Bracket
Challenge: A drone airframe bracket required maximum strength-to-weight with complex angled features.
Approach: Simultaneous 5-axis machining of Ti-6Al-4V in a single setup to minimize fixtures and stack-up error.
Lightweight, high-strength bracket with consistent positional tolerance and minimal stack-up. Materials: titanium.
COMMUNICATIONRF HOUSING
RF Communication Filter Housing
Challenge: An RF filter housing needed precise cavities and consistent surface accuracy to protect signal integrity.
Approach: Multi-side milling of aluminum with tight cavity control and gauge-verified threads, batch-checked on CMM.
Repeatable cavity geometry across the batch with stable RF performance. Materials: aluminum, brass.
MORE PROJECTS
More Parts In Production
A wider snapshot of precision components delivered across industries.
Robotics Motion Bracket
Aluminum jig & motion bracket for an automation cell requiring repeatable precision.
✓ Batch-consistent fit, fast turnaround.
Industrial Precision Shaft
Stainless turn-mill shaft with tight concentricity for machinery assembly.
✓ Controlled surface finish, gauge-verified.
Sensor Mount & Enclosure
Aluminum sensor housing for an ADAS bracket assembly, anodized finish.
✓ Tight hole position, clean edges.
Electrode Holder
Precision fixture for semiconductor equipment with high cleanliness control.
✓ Traceable material, particle-controlled.
RF Connector Pins
Turned brass connector parts with tight concentricity for signal integrity.
✓ Repeatable across high volume.
UAV Frame Components
Lightweight aluminum drone frame parts machined for strength-to-weight.
✓ Consistent across the batch.
START YOUR PROJECT
Have a similar part? Let’s machine it.
Send your drawing and tell us your application. Our engineers confirm manufacturability, tolerances, and lead time within 24 hours.