CNC Machining Services for High-Precision Equipment Builders
From prototype to production with inspection-backed quality, tight tolerance control, and engineering support.
✔ DFM Review Included
✔ CoC / Dimensional / FAI
✔ Prototype → Production support
STEP / IGES / SLDPRT / PDF accepted
ISO 9001
Material traceability
CMM reporting
Revision Control
CNC Machining Capabilities
3‑Axis CNC Milling
Efficient prototyping and production of complex 2D/2.5D geometries, custom fixtures, and brackets. High-speed VMCs ensure fast turnaround.
4 & 5‑Axis CNC Milling
Single‑setup production of undercuts and freeform surfaces. Reduces lead time up to 84% for complex components vs. multi‑step processes.
CNC Turning & Swiss
High‑precision cylindrical parts, shafts, and fasteners. Swiss‑type lathes for small, complex, high‑volume components with tight tolerances.
Part Family We Manufacture
Components we commonly manufacture for automation, robotics, and precision systems.
1. Structural & Load-Bearing Components
Base plates
Mounting plates
Structural frames
Machine brackets
Support arms
Linkages
Reinforcement ribs
Fixture plates
Adapter plates
Machine beds
Gantry components
Frame connectors
2. Motion & Power Transmission Parts
Shafts
Precision pins
Bushings
Sleeves
Couplings
Gear housings
Gear shafts
Timing pulley hubs
Bearing housings
Rotary joints
Ball screw supports
Lead screw nuts
Cam components
Crank arms
3. Precision Fit & Alignment Components
Bearing seats
Alignment blocks
Datum features
Locator pins
Dowel holes
Precision spacers
Shim blocks
Guide rails interfaces
Linear rail mounts
Jig & fixture components
Calibration blocks
4. Enclosures & Housing Parts
Motor housings
Gearbox housings
Sensor housings
Optical housings
Camera enclosures
Controller enclosures
Aluminum casings
Heat sink housings
Protective covers
Shell structures
5. Fluid & Pneumatic Components
Valve bodies
Manifolds
Pump housings
Flow control blocks
Hydraulic blocks
Pneumatic connectors
Nozzles
Fittings
Pressure chambers
6. Interface & Connection Parts
Connectors
Adapters
Coupling blocks
Mounting interfaces
Flanges
Threaded inserts
Custom fastener components
Electrical/mechanical interfaces
7. Complex 3D Geometry Parts (5-Axis)
Multi-face machined blocks
Organic geometry parts
Turbine-like components
Complex cavities
Multi-angle housings
Integrated functional blocks
High-density feature parts
8. Tooling & Production Components
Jigs & fixtures
Molds (inserts, cores)
Die components
Clamping fixtures
Workholding devices
Inspection fixtures
9. Consumer & Electronics Precision Parts
Aluminum frames
Device housings
Heat sinks
Button components
Camera modules
Connector shells
Speaker housings
10. High-Precision Micro Components
Micro shafts
Micro bushings
Medical-grade parts
Micro connectors
Small tolerance inserts
Fine-thread components
Best Fit for Your Industry
We don’t just make parts — we solve the unique challenges of high‑performance industries.
◆
Medical & Life Sciences
Biocompatible materials (Grade 5 Ti, PEEK), ISO 13485‑capable quality, full traceability for surgical instruments & implants.
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Robotics & Automation
Lightweight magnesium & aluminum end‑effectors, cobot joints, and structural housings for high‑cycle applications.
◆
Battery & Energy Storage
High‑precision fixtures, busbars, and manifold blocks with optimized thermal and electrical conductivity.
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Quality Inspection & Metrology
Ultra‑stable, low‑vibration components for CMMs, optical systems, and precision staging.
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Semiconductor Equipment
Cleanroom‑compatible, corrosion‑resistant parts for wafer handling, chip packaging, and inspection.
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Consumer Electronics
Aesthetic, high‑tolerance casings, buttons, and internal frames with cosmetic surface finishing.
Inspection‑Led Manufacturing
Incoming
Material verification with CoC (Certificate of Conformance). Lot traceability established.
In‑Process
First‑article inspection (FAI) on critical features. Real‑time SPC monitoring for high‑runner dimensions.
Final
CMM dimensional report + full documentation package (material certs, FAIR, CoC).
Inspection‑Led Manufacturing
| Document Type | Included Data | Best For |
| Certificate of Conformance (CoC) | Material & process verification | Standard mechanical parts |
| Standard Inspection Report | ~10 critical dimensions | Functional prototypes |
| CMM Full Inspection | 100% of dimensions + GD&T | Medical & Aerospace parts |
| First Article Inspection (FAI) | AS9102‑style full validation | New production runs |
Materials Expertise
| Material Category | Grade / Type | Common Applications |
| Aluminum Alloys | 6061, 6063, 7075, MIC-6 | Lightweight structures, enclosures, frames, heat sinks |
| Stainless Steel | 303, 304, 316, 17-4PH | Corrosion resistance, medical, structural precision parts |
| Carbon & Alloy Steel | 1018, 1045, 4140, 4340 | High strength mechanical components, shafts, load parts |
| Titanium Alloys | Ti-6Al-4V (Grade 5), Grade 2 | High strength-to-weight, medical, aerospace-grade parts |
| Magnesium Alloys | AZ31B, AZ91D | Ultra-lightweight structures, robotics, portable devices |
| Brass & Copper & Conductive Materials | C110, C101, Beryllium Copper | Busbars, connectors, thermal & electrical components |
| Engineering Plastics | POM (Delrin), Nylon (PA), PTFE, PEEK, PC, ABS | Insulation, wear parts, housings, functional prototypes |
| High-Performance Plastics (Semiconductor / Medical) | PEEK, Ultem (PEI), PPS | High-temp, chemical resistance, cleanroom compatibility |
| Brass & Soft Metals | C360, C280 | Precision fittings, connectors, cosmetic parts |
Tolerance Capabilities
General machine shop capabilities
| Level | Tolerance (± inch/±mm) | Cost Factor | Typical Application |
| Standard | 0.003937 inch / 0.1 mm | 1.0x | Regular dimension |
| High Standard | 0.001969 inch / 0.05 mm | 1.2x | Clearance holes, structural brackets |
| Tight | 0.000787 inch / 0.02 mm | 1.5x | Bearing bores, locating pins |
| Precision | 0.000394 inch / 0.01 mm | 2.0x | O‑ring glands, press fits |
| High Precision | 0.000315 inch / 0.008 mm | 2.5x | High‑speed spindles, sealing surfaces |
| Ultra‑Precision | 0.000197 inch / 0.005 mm | 3.0x | Aviation, Aerospace, Rocket |
*Data sourced from industry standards. Batnon will provide verified capabilities upon request.
RFQ Readiness Checklist
| • 3D Model – STEP (.stp), IGES (.igs), or SolidWorks (.sldprt) |
| • 2D Drawing (PDF) – Critical dimensions, tolerances, GD&T, surface finish |
| • Material Specification – Exact alloy (e.g., 6061-T6 vs 7075) |
| • Finish Requirements – Anodize (Type II/III), Bead Blast, As-Machined, etc. |
| • Special Processes – Heat treatment, plating, passivation, welding, or secondary operations |
| • Inspection Level – CoC, Standard Report, CMM, or FAI |
| • Quantity – Prototype (1–10) or production (100–10k+) |
| • Special Instructions – Edge breaks, thread class, cosmetic zones, packaging needs |
| • Target Lead Time – Standard or expedited (rush orders) |
| • DFM Feedback Request – Request for design optimization or cost reduction |
Please provide all core information when submitting your RFQ to receive an accurate, fast quote.
The Team Behind Your Parts
Our skilled engineers, machinists, and quality control experts work around the clock to bring your designs to life with unmatched precision.
🗣️ What Our Customers Say
Real feedback from engineers and operations leaders who made the switch to Batnon.
“Batnon’s 5‑axis machining saved us 40% on cycle time for our robotic end‑effector housing. The DFM feedback alone paid for the first order.”
Senior Robotics Engineer | Aegis Automation
“We needed ultra‑clean semiconductor chamber components with full material traceability. Batnon delivered CMM reports for every single part – no exceptions.”
Procurement Manager | NexGen Semiconductor Solutions
“Their prototype‑to‑production continuity was seamless. We went from 10 parts to 2,000 without re‑qualifying a single dimension.”
Product Development Lead | Volta Energy Systems
Case: How Daniel Completed Project Happily
Product Design Lead, Apex Motion Controls
Challenge:
Robotic actuator housings had bore misalignment → bearing binding + 25% scrap.
Our Solution:
Moved from 3‑axis to 5‑axis CNC with in‑process probing. Eliminated two setups.
Results:
- Scrap dropped from 25% → 3%
- Concentricity held at 0.008mm
- 500 parts delivered in 15 days
Impact:
- Daniel met his launch deadline.
- Field failures near zero.
Your CNC Machining Questions, Answered
No MOQ, ISO9001 certified, and precision down to ±0.005mm/0.00019in –
everything you need to know before your first quote.
What CNC machining services do you offer for medical and robotics applications?
We provide precision CNC milling, turning, and multi‑axis machining for titanium (Grade 5, Grade 23 ELI), magnesium (AZ31B, AZ91D, WE43), PEEK, stainless steel (304, 316L, 17‑4PH), and aluminum (6061, 7075, 5083). Our ISO 13485‑certified processes support medical devices, surgical instruments, implants, and robotic end‑effectors – with full material traceability and inspection‑led quality.
Do your CNC‑machining‑services accept prototypes and low‑volume orders with no MOQ?
Yes. Our CNC machining services have no minimum order quantity (MOQ). We machine single‑piece prototypes for R&D validation, low‑volume runs (1–500 pcs) for market testing, and scale seamlessly to high‑volume production using the same processes. This "prototype → production continuity" eliminates handover risks.
Do your precision-CNC‑machining‑services include a DFM review before production?
Absolutely. A free DFM (Design for Manufacturability) review is included with every quote. Our engineers analyze your CAD model, flag potential issues (sharp internal corners, unrealistic tolerances, thin walls, non‑standard hole sizes), and deliver a formal DFM report with actionable recommendations. This lowers your cost, shortens lead time, and prevents costly revisions.
What tolerance can you consistently achieve?
We routinely achieve ±0.005 mm on critical features, verified with CMM inspection.
For most industrial parts, we recommend ±0.01 mm as a cost-performance balance.
How do you ensure quality across all parts—not just samples?
Quality is controlled throughout the process:
First Article Inspection (FAI)
In-process checks during machining
Final CMM and full inspection reports
This ensures consistency from first part to last, not just sample approval.
What is your typical lead time?
Prototype: as fast as 7–10 days
Low-volume production: 2–4 weeks
Lead time depends on part complexity, material, and quantity—these are the primary drivers in CNC production timelines
Can you help optimize my design to reduce cost?
Yes. We provide DFM (Design for Manufacturability) feedback within 12 hours.
We help reduce:
unnecessary tight tolerances
excessive setups
complex geometries that increase machining time
What materials can you machine?
We machine a wide range of materials including:
Aluminum, stainless steel, titanium, magnesium
Copper and conductive alloys
Engineering plastics (POM, PEEK, PTFE, PC, ABS)
Material selection depends on strength, weight, thermal, and electrical requirements
What file formats do you need for quotation?
We require 3D files (STEP / STP preferred) for accurate quoting.
2D drawings (PDF) alone are usually insufficient for:
- hidden features
- tolerances
- complex geometries
Can you handle both prototype and production?
Yes. We support:
1–500 pcs low-volume production
seamless transition from prototype to batch
This avoids supplier switching, which often introduces quality and consistency risks.
How do you handle communication and project updates?
You work directly with engineers, not sales intermediaries.
This ensures:
- faster clarification of technical issues
- fewer misunderstandings
- quicker iteration cycles
Turn Your Design Into Reality — Fast & Accurately
Upload your CAD. Get a fast online quote in 12h.
STEP / IGES / SLDPRT / PDF accepted
CNC parts for advanced equipment builders
If you build equipment for:
Medical Devices & Life Sciences, Robotics & Automation, Battery & Energy Storage Manufacturing Equipment, Quality Inspection & Metrology Automation, Semiconductor Equipment & Advanced Packaging, Consumer Electronics.
the CNC parts we typically supply include:
Arms, Cobots, End-Effectors, manipulators, precision alignment plates, vacuum chamber components, sensor mounts, and custom fixtures.
Every part is backed by inspection documentation and material traceability.