Axiora Medical Axiora Medical

Top 10 Titanium Bone Screws Factory & Supplier

A Global OEM/ODM Technical Procurement Guide & High-Precision Clinical Supply Chain Report

Advanced Orthopedic Implants & Power Systems

Discover our primary lineup of medical-grade external fixators, bioabsorbable interference implants, neurosurgical drill systems, and micro trauma plates.

Orthopedic External Fixator Tibia Stabilizer

Medical Device Orthopedics Equipment Ortho Fix Tibia Lower Limb Fixer External Fixator ZAS Boxes Hoffmann Orthopedic Instruments

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CANWELL ACL Bioabsorbable Screw

CANWELL ACL Bioabsorbable Screw PLGA Interference Screw ACL/PCL Reconstruction Arthroscopy Surgery Orthopedic Implants CE

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Spinal Neurosurgery High Speed Drill Set

Spinal Neurosurgery High Speed Drill Set Spine Neuro Surgery

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Bone Medical Orthopedic Implant Mini Locking Plate Set

Bone Medical Orthopedic Implant Micro Trauma Mini Locking Plate Instruments Set

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TPLO Arc Saw Tibial Osteotomy Power System

TPLO Arc Saw Tibial Platform Osteotomy Power System Orthopedic Instrument Power Tools

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Reverse Drill Retrograde Reamer

Reverse Drill Retrograde Reamer Bone Surgical Instruments All-in Cruciate Ligament Reconstruction Instrument Set

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Orthopedic Knee Joint Prosthesis Surgery Instrument

Orthopedic Tools Knee Joint Prosthesis Knee Prosthesis Spacer Joint Surgery Instrument High Quality

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BW 74V Multifunctional Drill Veterinary Instrument

BW 7.4V Multifunctional Drill Lithium Battery Veterinary Orthopedic Instrument

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Axiora Medical Technology (China) Co., Ltd.

Axiora Medical Technology (China) Co., Ltd. is an industry-leading OEM/ODM manufacturer specializing in high-precision orthopedic implants and instrument systems. By combining state-of-the-art titanium machining technology with strict quality management systems, we serve leading global medical brands, distributors, and surgical clinics.

15+
Years Industry Exp
18,600m²
Factory Area
86+
R&D Engineers
$26M
Annual Export Revenue
Operational Metric Technical Capability & Quality Parameters
Established Year 2017 (Core team brings over 15 years of industry-leading biomechanical expertise)
Supply Chain Network 1,120 global supply chain partners (assuring raw material and equipment priority)
Core Quality Staff 48 Quality Control (QC) and Regulatory Assurance specialists
Quality Inspection Protocols 100% finished product inspection, Coordinate Measuring Machine (CMM), Tensile, Hardness, Surface Roughness & Salt Spray testing
Customization Capabilities OEM/ODM solutions, logo printing, private labeling, custom structural designs, biocompatible coating configurations
New Product Development 126 new orthopedic implant/instrument products released last fiscal year

The Global Commercial & Industrial Landscape of Titanium Bone Screws

In modern clinical orthopedics, titanium bone screws are not merely fasteners—they are bio-active structural interfaces designed to achieve immediate rigid fixation and accelerate osseointegration.

Biocompatibility & Metallurgy

Medical-grade titanium alloys, primarily Grade 5 (Ti-6Al-4V ELI), are utilized due to their low elastic modulus, minimizing the risk of stress shielding. The natural passivation layer of TiO2 protects the surrounding osseous tissue from electrochemical corrosion.

Clinical Biomechanics

Modern bone screws incorporate advanced thread geometry (buttress, cortical, cancellous) optimized via Finite Element Analysis (FEA) to maximize pull-out strength, minimize insertion torque, and optimize spatial load distribution across fracture sites.

Regulatory Hurdles

Navigating global regulatory pathways requires manufacturers to align documentation with MDR (EU) 2017/745 and FDA 510(k) clearances. Supply chain traceability, sterilization validation, and material certification are mandatory components of E-E-A-T.

Localized Surgical Application Scenarios

Bone screws perform distinct functions depending on their placement and structural loading. Our titanium hardware is engineered for optimal performance across these key clinical fields:

Trauma & Reconstructive Surgery

In high-impact trauma centers, cortical and locking titanium screws are paired with anatomical plates to treat distal radius, tibial plateau, and humeral shaft fractures. The self-tapping tip allows for rapid placement when timing is critical.

Spinal Stabilization Systems

For degenerative disc diseases, scoliosis, and spinal instability, posterior spinal fixation relies on cannulated pedicle screws. High-grade titanium ensures these implants tolerate continuous load cycling without fatigue failure.

Sports Medicine & Arthroscopy

During ACL/PCL reconstruction, titanium suture anchors and interference screws provide secure ligament-to-bone fixation. They support immediate physical rehabilitation without losing structural hold.

Veterinary Orthopedics

Veterinary surgeons rely on specialized micro-trauma plates and TPLO (Tibial Plateau Leveling Osteotomy) locking systems to restore pain-free movement in small companion animals and performance equines.

Technical Roadmap & Future Outlook

Orthopedic design is shifting toward bioactive implant interfaces. Our R&D department continues to innovate along three primary engineering pathways:

1. Surface Modifications

We are refining electrochemical anodization techniques to create sub-micron nanotube layers. These surfaces act as reservoirs for localized therapeutic agents, encouraging bone cells to attach quickly and reducing bacterial adhesion.

2. Additive Manufacturing

Integrating Electron Beam Melting (EBM) and Direct Metal Laser Sintering (DMLS) allows us to build screws with dense structural cores and highly porous outer shells. This replicates the natural structure of trabecular bone.

3. Bioabsorbable Integration

For applications where permanent hardware isn't required, we develop PLGA-based bioabsorbable interference screws. These maintain mechanical integrity during healing before safely absorbing into the body.

Supply Chain Resilience: The Axiora Advantage

Operating from China's medical device manufacturing hub, Axiora combines structural cost advantages with reliable supply chain logistics, ensuring on-time delivery for global distributors.

Sourcing Security

We source medical-grade titanium exclusively from certified domestic suppliers who provide full heat-traceability documentation. This helps shield our customers from sudden price swings in international raw materials.

High-Precision Automation

Our facility runs Swiss-type CNC lathes and automated machining centers. This high-density production setup ensures consistent tolerance control (+/- 0.005 mm) while keeping per-unit costs competitive.

Regulatory and Quality Audits

Our quality management team maintains strict compliance with ISO 13485. Every production run undergoes complete physical, dimensional, and biological validation to simplify localized customs clearances.

Interactive Production Tour & Process Controls

From raw medical titanium bars to sterile-ready packaging, trace our complete 14-step manufacturing flow and state-of-the-art testing equipment below.

Step-by-Step Production Process Flow

Raw Material
1. Raw Material Verification
Longitudinal Cutting
2. Longitudinal Cutting
CNC Machining
3. Precision CNC Machining
Polishing
4. Fine Surface Polishing
Ultrasonic Washing 1
5. Primary Ultrasonic Wash
Grinding
6. Mechanical Grinding
Sand-Blasting
7. Surface Sand-Blasting
Penetrant Testing
8. Fluorescent Penetrant Test
Anodizing
9. Electrochemical Anodizing
Ultrasonic Washing 2
10. Secondary Ultrasonic Wash
OQC
11. Outgoing Quality Control
Aseptic Packing Room
12. Aseptic Cleanroom Entry
Packing Line
13. Sterile Sealing & Packing
Storage
14. Climate-Controlled Storage

Precision Machinery & Diagnostic Testers

Longitudinal Cutting Lathe
Longitudinal Cutting Lathe
CNC Machine
Precision CNC Station
Polishing Machine
Automated Polishing Machine
Ultrasonic Washing Unit
Ultrasonic Cleaning System
Grinding Machine
High-Accuracy Grinding Machine
Sand-Blasting Machine
Sand-Blasting Station
Anodizing Machine
Electrochemical Anodizing Line
Penetrant Testing Room
Nondestructive Testing Room
Endurance Tester
Fatigue & Endurance Tester
Aging Tester
Environmental Aging Tester

Deep Industry Technical Q&A

Expert answers to common engineering, regulatory, and procurement questions for orthopedic implants.

What standard alloy grades do you use for orthopedic bone screws?
We primarily use medical-grade Ti-6Al-4V ELI (Extra Low Interstitial) conforming to ASTM F136 and ISO 5832-3. This alloy is selected for its high strength-to-weight ratio, excellent fatigue resistance, and superior biocompatibility compared to standard Grade 5 titanium. We also manufacture stainless steel implants (316LVM conforming to ASTM F138) based on customer requirements.
How does electrochemical anodization impact bone screw performance?
Electrochemical anodization thickens the natural titanium oxide passive layer, which improves corrosion resistance and reduces ion release into surrounding tissue. Additionally, we use color anodization to provide clear, sterile-stable color coding (e.g., yellow, blue, green) that helps surgeons quickly identify screw diameters during procedures.
Are your products compatible with autoclave sterilization systems?
Yes, all our titanium bone screws and instrument sets are designed to withstand repeated steam autoclave sterilization cycles (typically 134°C for 4–18 minutes) without experiencing structural or aesthetic degradation. We supply products in both non-sterile and pre-sterile configurations depending on regional market needs.
What is the functional difference between PLGA and Titanium interference screws?
PLGA (poly-lactic-co-glycolic acid) bioabsorbable screws gradually break down via hydrolysis and are replaced by natural bone over 12–24 months, eliminating the need for a secondary removal surgery. Titanium screws remain permanently bio-inert and are typically chosen when long-term structural fixation is required.
What OEM/ODM documentation do you provide to global purchasers?
We provide a comprehensive technical file package, including raw material Mill Test Certificates (MTC), dimensional inspection logs (CMM data), biocompatibility reports (ISO 10993), sterilization validation data, and CE/ISO 13485 certificates. This documentation helps support your registration and regulatory filing requirements.

Complete Orthopedic & Arthroscopy Portfolio

Explore our range of veterinary tools, titanium suture anchors, chest plates, and total joint replacement instruments.

Bone Osteotomes Autoclavable Veterinary Instruments

Bone Osteotomes 3mm-16mm Autoclavable Veterinary Orthopedic Small Pet Instruments Reuseable

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CANWELL Titanium Suture Anchor

CANWELL Titanium Suture Anchor With 4 Needles 3.5mm Arthroscopy Implant Orthopedic With Needle Rotator Cuff Repair

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Geasure Medical Meniscal Repair Surgery

Geasure Medical Suture Double Needle Meniscal Needle Arthroscopic Knee Insiden Out Meniscal Repair Surgery

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Geasure Funnel Chest Orthopedic Plate

Geasure Funnel Chest Orthopedic System - Orthopedic Plate

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Thoracolumbar Fixation System Pedicle Screw Set

High Quality Posterior Thoracolumbar Fixation System Stainless Steel Spine Pedicle Screw Instruments Set

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Geasure Titanium Alloy Pressure Locking Plate

Geasure Hot Selling Titanium Alloy Orthopedic Pressure Locking Plate ZXSD04

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Tplo Saw Veterinary Surgery Instrument Set

Tplo Saw Pet Surgery Instrument Medical Power Tool Set Orthopedic Power Drills Veterinary Surgery TPLO Saw With Battery

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CANWELL Total Hip Ceramic Replacement Instrument Set

CANWELL Arthroplasty Total Hip Ceramic Replacement Cemented Prosthesis Corail Femoral Stem Bipolar Prosthesis Instrument Set

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