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Titanium Bone Plate Ti-6Al-4V ELI CNC Machining

Titanium Bone Plate Ti-6Al-4V ELI CNC Machining
Tiedot:
Services: We provide high-precision 5-axis milling and Swiss-type turning for complex medical implants.

Capacity: Our facility operates advanced 5-axis machining centers for high-volume orthopedic implant production.

Finishes: Available surface treatments include medical-grade anodizing, SLA sandblasting, and chemical passivation.

Specifications: Components are machined to ASTM F136 standards with tolerances held at ±0.01mm.

Quality Control: Every batch includes full material traceability and 100% CMM dimensional verification reports.

Lead Time: Standard production cycles range from 10 to 15 days following DFM approval.

MOQ: We support medical R&D projects with flexible order volumes starting from single-unit prototypes.

Drawings: Engineering teams accept STEP, IGS, and DXF files for rapid technical assessment.

Value-Add: We offer comprehensive DFM feedback to optimize implant geometry for mechanical stability.
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Precision 5-Axis CNC Titanium Bone Plates for Orthopedic Surgery

Engineered for anatomical perfection and high-fatigue mechanical stability.

Grade 23 Ti-6Al-4V ELI medical-grade titanium alloy.

Anatomical pre-contoured design for precise bone fit.

ISO 13485:2016, CE, and FDA compliant production.

5-axis CNC milling eliminates internal forging defects.

Surface finish options: SLA, Anodizing, and Passivation.

100% CMM inspection and material traceability reports.

Dimensional tolerance maintained within ±0.01mm.

Rapid prototyping lead times of 10-15 business days.

 

CNC Machined Titanium Bone Plates Manufacturer (1)

 

5-axis CNC machining for bone fixation systems. Unlike traditional forged plates that risk internal porosity or grain flow interruption, our plates are milled from solid Ti-6Al-4V ELI (Grade 23) bar stock.

 

This subtractive manufacturing process ensures superior fatigue strength and eliminates the risk of plate breakage under cyclic mechanical loading. We achieve complex anatomical geometries that match human bone curvature without the need for intraoperative bending, supporting the most demanding requirements.

Ti-6Al-4V ELI Titanium Orthopedic Bone Plates

 

Ti-6Al-4V ELI (ASTM F136 / ISO 5832-3)

5-Axis Simultaneous Milling / Swiss Lathe

±0.01 mm

4H / 5H (Locking & Compression Holes)

Ra 0.4μm - Ra 1.6μm

1.5 mm – 5.0 mm (Customizable)

ISO 13485, FDA, CE Standards

Anatomical Titanium Bone Plate for Distal Radius

 

ISO 13485 Quality Assurance & Traceability Protocols

ISO 13485:2016 standards for surgical implants. Every production batch undergoes a rigorous verification cycle:

 

OES spectrochemical analysis to verify ELI (Extra Low Interstitial) oxygen levels.

100% inspection of critical hole alignments and thread pitches using Hexagon CMM.

Fluorescent Penetrant Inspection (FPI) to detect surface micro-fissures.

Laser-marked UDI (Unique Device Identification) codes for end-to-end batch tracking from raw material to finished product.

Custom CNC Titanium Bone Plates for Fracture

 

High-Stability Titanium Solutions Engineered for Critical Trauma and Complex Reconstructive Procedures.

Trauma Orthopedics

Internal fixation for long bone, pelvic, and clavicle fractures.

Maxillofacial Surgery

Precision CNC plates for mandibular and mid-face reconstruction.

Spinal Implants

Anterior and posterior cervical plating systems.

Veterinary Orthopedics

Technical titanium plates for small and large animal fracture repair.

 

 

 

Proximal Femur Titanium Locking Plate

01.

CNC machining from solid Ti-6Al-4V ELI bar stock eliminates internal voids, gas pockets, and inconsistent grain structures common in forging. It provides higher fatigue resistance, superior thread precision for locking screws, and allows for complex anatomical geometries that forging cannot achieve.

02.Which medical-grade titanium do you use for orthopedic plates?

We exclusively use Grade 23 Ti-6Al-4V ELI (Extra Low Interstitial) titanium. It offers higher ductility and fracture toughness than standard Grade 5, making it the industry standard for long-term permanent surgical implants.

03.

Yes. Our engineering team converts DICOM/CT data into 3D STEP files for CNC programming. We can produce patient-specific titanium bone plates with precise curvature to accommodate complex deformities or non-union fractures.

04.What surface treatments are available for bio-integration?

We provide Type II and Type III anodizing for color coding and wear resistance, as well as SLA (Sandblasted and Acid-Etched) finishes which increase surface area to promote osseointegration and soft tissue attachment.

05.

For R&D and clinical trial prototypes, our standard lead time is 10-15 business days. We support low order volumes to facilitate surgical testing and regulatory validation phases before mass production.

06.

Yes. Every shipment includes a full FAI report, material mill test certificates (MTR), and dimensional inspection logs. We ensure 100% compliance with your technical drawings and ISO 13485 requirements.


Upload your 2D drawings and 3D CAD files (STEP, IGS, or Parasolid) for a professional DFM evaluation.

Our engineers provide technical feedback and a detailed quotation within 24 hours.

 

 

Request a Rapid Quote for Titanium Bone Plates

Suositut Tagit: titanium bone plate,Ti-6Al-4V ELI machining,orthopedic implants,5-axis CNC medical parts,locking plate system

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