Machining Fixtures & Jigs Manufacturer
Production-critical machining fixtures built for CNC milling, turning, and 5-axis systems. Repeatable locating, stable clamping, and shorter cycle times.
Built for Real CNC Production Problems
Machining fixtures fail when they introduce hidden costs: rework, scrap, and unstable measurements. Our approach eliminates common production killers.
Variation Creep
Prevents part drift over time across multiple shifts through datum-first locating references.
Deformation Control
Protects thin-wall components from distortion through intelligent support mapping and controlled force.
Chip Packing
Built-in evacuation channels to prevent surface damage and reduce cleaning downtime.
What Breaks Your Process—and How We Prevent It
Seating & Locating Stability
Strategy: Primary/secondary/tertiary references designed to converge error paths.
Cycle Time Optimization
Strategy: Tool-path aware design to access critical faces without re-clamping.
Scrap Prevention (Poka-Yoke)
Strategy: Wrong orientation becomes impossible with self-locating guided features.
Engineering Change Ready
Don’t let ECO/ECNs break your production plan. Our modular nests allow you to swap the top interface while keeping the expensive base, keeping revisions fast and affordable.
- Modular swappable inserts
- Traceable revision control
- Pre-ramp try-out loops
Machining Fixtures & Jigs We Build
CNC Milling Fixtures
3-axis to 5-axis workholding for brackets, housings, and manifolds.
- • Dedicated datums + anti-rotation
- • Replaceable locating pins
- • Sealing surfaces for protection
5-Axis Machining Fixtures
Collision-aware geometry to maximize tool access on complex parts.
- • Rigidity under high cutting loads
- • Minimal spindle obstruction
- • Repeatable re-location features
Turning & EDM Workholding
Balanced clamping for irregular shapes and delicate rings.
- • Concentricity & runout control
- • Distortion-free clamping
- • Fast load/unload production cycles
Our Design & Build Capabilities
We deliver fixtures that are usable, controllable, and repeatable—not just “made to drawing.”
Locating Strategy
Aligned to GD&T and key characteristics.
Precision Mfg
Critical reference plane machining.
Risk Analysis
Tolerance stack-up & drift mitigation.
Validation
Try-out run-off and inspection notes.
The Fixture Build Process
1. Input Review
Review drawing/3D, GD&T, and process sequence.
2. DFM + Strategy
Supports, clamps, tool access, and chip evacuation planning.
3. Build & Assembly
Precision machining, hardening, and functional fit checks.
4. Try-out & Validation
Repeatability checks and functional confirmation before shipping.
Why Manufacturers Choose Rapidaccu
Stability First
Repeatability beats “tight machining” for production yield.
Maintainable
Replaceable wear parts and standard spares strategy.
Audit Ready
Full documentation packages for line handover.
Change Friendly
Modular designs that keep engineering changes affordable.
Ready to Start? What We Need to Quote
Machining Tooling FAQ
What’s the typical lead time for machining fixtures?
Can you design fixtures for 5-axis machining with collision clearance?
How do you prevent thin-wall deformation?
Do you provide try-out and validation before shipment?
Secure Your Production
Send your drawing and tell us your biggest risk: distortion, cycle time, or repeatability. We’ll reply within 24 hours.
Email Us
info@rapidaccu.comService Coverage
Global precision manufacturing & engineering support.
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