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Orthopedic Implant Orthopedic Components
On-Demand CNC Platform

CNC Machining for
Orthopedic
Devices

We machine bone plates, spinal fusion cages, hip stem components, knee tibial trays, and trauma screws from Ti-6Al-4V ELI, cobalt-chrome, and PEEK. FDA-ready documentation on every order. Ships anywhere in the US.

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$58B+
US orthopedic device
market size
Fortune Business Insights 2024
Ti-6Al-4V
Primary titanium alloy
for orthopedic implants
ASTM F136
±0.0005"
Tolerances on bearing
surfaces & tapers
RivCut capability
5-Day
Prototype turnaround
available
Ti & PEEK parts
On-Demand Capabilities

Precision CNC Machining for Orthopedic Device Teams

Orthopedic devices demand parts that are biocompatible, dimensionally precise, and fully documented. A spinal cage with incorrect thread pitch or a tibial tray with a taper angle off by 0.5 degrees can mean device failure. We machine Ti-6Al-4V ELI, cobalt-chrome, 316LVM stainless, and PEEK-OPTIMA to tolerances as tight as ±0.0005 inches. Every order ships with CMM inspection reports, material certs per ASTM specifications, and documentation your quality team can use for FDA submissions.

1

Biocompatible Materials

We source and machine Ti-6Al-4V ELI (ASTM F136), cobalt-chrome (ASTM F1537), 316LVM stainless (ASTM F138), and PEEK-OPTIMA — all with full material certs and traceability.

2

Tight Tolerances

We hold ±0.001" on general features and ±0.0005" on bearing surfaces, taper angles, and screw thread profiles. Every part is CMM verified before shipping.

3

FDA-Ready Documentation

Dimensional inspection reports, material certs per ASTM specs, first article reports, and process documentation — everything for FDA 21 CFR 820 compliance and 510(k) submissions.

What We Machine

Parts for Orthopedic Device Companies

Bone plates, spinal cages, hip stems, tibial trays, and more.

Bone Plates

Anatomic bone plates for trauma fixation machined from Ti-6Al-4V ELI and 316LVM stainless. Precise screw hole patterns, locking features, and contoured profiles for anatomic fit.

Ti-6Al-4V ELI

Spinal Fusion Cages

Interbody fusion cages machined from PEEK-OPTIMA and titanium. Precise tooth profiles for graft containment, lordotic angles, and surface textures that promote bone ingrowth.

PEEK-OPTIMA

Hip Stem Components

Femoral hip stems machined from Ti-6Al-4V ELI and cobalt-chrome. Critical Morse taper bores, polished surfaces on the neck, and textured proximal regions for press-fit fixation.

CoCr & Ti

Knee Tibial Trays

Tibial base plates machined from cobalt-chrome and titanium. Precise keel geometry, locking mechanism features, and polished bearing surfaces for polyethylene insert articulation.

±0.0005" bearing surface

Trauma Screws

Cortical and cancellous bone screws machined from Ti-6Al-4V ELI and 316LVM stainless. Precise thread profiles, self-tapping tips, and hex drive recesses machined to tight tolerances.

ASTM F136

Pedicle Screws

Polyaxial and monoaxial pedicle screws for spinal fixation machined from Ti-6Al-4V ELI. Tulip head geometry, dual-lead thread profiles, and break-off torque features with CMM-verified dimensions.

5-axis capability
Orthopedic Device Ecosystem

Serving the US Orthopedic Device Industry

The US orthopedic device market exceeds $58 billion, driven by aging populations, increasing joint replacement volumes, and advances in spinal fusion and trauma fixation technology.

From total knee replacements to minimally invasive spinal cages, every device depends on precision-machined components that meet strict biocompatibility and dimensional requirements under FDA 21 CFR 820.

Whether your team is developing next-generation patient-matched implants or scaling an existing device line, we want to be your machining partner. We ship anywhere in the US and give you instant AI pricing the moment you upload.

Stryker Orthopedics

Global leader in hip, knee, and trauma implants. Their product lines require thousands of precision-machined titanium and cobalt-chrome components per year.

Zimmer Biomet

Major manufacturer of reconstructive joint devices, spinal implants, and trauma fixation systems. Extensive supply chain for CNC-machined implant components.

DePuy Synthes (J&J)

Johnson & Johnson's orthopedic division produces hip, knee, spine, and trauma devices requiring precision-machined implant bodies, screws, and plates.

Medtronic Spine

A leading spinal device company requiring precision-machined interbody cages, pedicle screws, and rod connectors from titanium and PEEK materials.

Smith+Nephew

Global medical technology company specializing in sports medicine, joint reconstruction, and trauma. Requires CNC-machined implants and instrumentation.

Why RivCut

Built for Orthopedic Device Teams

Implant components need a shop that takes biocompatibility and documentation as seriously as machining.

FDA-Ready Documentation

Every orthopedic order ships with dimensional inspection reports, material certs per ASTM specs, and process records. Our paperwork supports FDA 21 CFR 820 and 510(k) submissions.

ASTM-Certified Materials

We source Ti-6Al-4V ELI (F136), CoCrMo (F1537), 316LVM (F138), and PEEK-OPTIMA with ASTM-compliant mill certs and full heat lot traceability on every order.

CMM Inspection on Every Order

We verify every critical dimension — taper angles, bearing surfaces, screw thread profiles — before shipping. CMM reports go with every part.

Fast V&V Build Support

Your design verification timeline does not wait. Orthopedic device prototypes in 5 to 8 days with serialized parts and full lot traceability.

Certifications & Standards
In Progress
ISO 13485
Medical device quality management. We are building our QMS to this standard. Our documentation follows the structure now.
Active
NIST-Traceable Gauges
All measuring equipment is calibrated to NIST standards on regular cycles. CMM, micrometers, and gauges.
Active
Material Certifications
Every order ships with ASTM-compliant mill certs and heat lot traceability. Biocompatible material documentation available.
Planned
FDA Registration
FDA establishment registration is on our roadmap. We currently support customers with FDA-ready documentation packages.

Questions about our current quality setup? Email us — we'll send our documentation package.

How It Works

From File to Part in 3 Steps

Simple, clear, and designed for fast-moving orthopedic device teams.

Step 1

Upload & Quote

Send your STEP or IGES file. Pick your biocompatible material (Ti, CoCr, PEEK), quantity, and finish. Our AI gives you a real price right away. Free DFM check included.

Step 2

We Machine & Inspect

Your parts run on our CNC mills and lathes. Every order gets CMM inspection. We verify bearing surfaces, taper angles, and screw thread profiles before anything ships.

Step 3

Ship with Full Docs

Parts ship with dimensional inspection reports, ASTM-compliant material certs, and all FDA-ready paperwork. Everything your quality team needs for DHF and V&V documentation.

More Medical Machining

Explore Other Medical Sub-Industries

We machine parts for every corner of the medical device market.

Surgical Instruments

scalpel handles, forceps, retractors, guides

Diagnostic Equipment

MRI housings, CT gantry parts, ultrasound probes

Lab Devices

centrifuge rotors, microplate holders, pipette manifolds

Implantable Components

titanium bodies, PEEK cages, CoCr femoral heads

Drug Delivery Devices

pump housings, inhaler bodies, auto-injector mechanisms
FAQ

Questions from Orthopedic Device Teams

We machine Ti-6Al-4V ELI (ASTM F136), cobalt-chrome (ASTM F1537), 316LVM stainless steel (ASTM F138), PEEK-OPTIMA, and commercially pure titanium. All materials ship with full mill certs and heat lot traceability.
Yes. We CNC machine bone plates, spinal interbody fusion cages, and fixation hardware from Ti-6Al-4V ELI and PEEK. We hold tight tolerances on screw hole patterns, locking features, and surface profiles critical for osseointegration.
We hold ±0.001 inches on general features, ±0.0005 inches on bearing surfaces, taper bores, and screw thread profiles. Every orthopedic part is CMM inspected and ships with a full dimensional report.
We provide dimensional inspection reports, material certs with ASTM specifications, process records, and first article inspection reports. Our documentation supports FDA 21 CFR 820 requirements and can be included in your 510(k) DHF package.
Yes. We machine cobalt-chrome (CoCrMo) per ASTM F1537 for femoral heads, femoral condyle prototypes, and tibial tray components. CoCr requires specialized tooling and we have the experience to deliver tight-tolerance parts with excellent surface finish.
We offer as-machined, mirror polish for bearing surfaces, bead blast for osseointegration texture, passivation per ASTM A967, and electropolish. Surface finish requirements are verified before shipping.
Most orthopedic device prototypes ship in 5 to 8 business days depending on material and complexity. Titanium and PEEK parts with simpler geometries can ship in 5 days. Rush options available — tell us your deadline.
Yes. We support V&V builds with full lot traceability, serialized parts, first article inspection, and documentation packages that align with your design controls under FDA 21 CFR 820.
Browse by City

Orthopedic Device CNC Machining by City

We serve orthopedic device teams in cities across the US.

Warsaw, IN Memphis, TN Minneapolis, MN San Jose, CA Boston, MA
Ready to Start?

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Bone plates, spinal cages, hip stems, tibial trays — we machine them all. Get instant AI pricing now. Prototypes ship in as few as 5 days.

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No minimums · Single prototypes to production runs · NDA ready · Ships anywhere in the US

AI price estimates are usually within ±20% of final price. Complex parts may get a human review within one business day before pricing is confirmed.

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