Designation:GR1,GR2,GR3,GR4,GR23,Ti6Al4V,Ti6Al4V ELI,Ti6Al7Nb,TA1G,TA2G,TA3G,TA4G,TC4,TC4 ELI,TC20

Standard:GB/T 13810,ASTM F67,ASTM F1472,ASTM F136,ASTM F1295,ISO 5832-2,IS0 5832-3,ISO 5832-11

Overview:This product, TC4 titanium rod, possesses uniform and stable mechanical properties, ensuring precise torque transmission
Product Introduction：

TC4 Titanium Rod for Medical Bone Nails | Core Technical Requirements

- Meet the production standards of medical device manufacturers and build a solid clinical safety bottom line
 

As the core raw material of medical bone screws, the technical specifications of TC4 titanium rods directly determine the clinical safety, mechanical reliability, and processing adaptability of bone screws. We are based on the core procurement demands of medical device manufacturers. From the four dimensions of "compliance, performance stability, processing adaptability, and traceability", it clarifies the key technical requirements for medical bone nail TC4 titanium rods, making procurement decisions more accurate, production more worry free, and products more compliant.

1. Compliance requirements: comply with industry standards and meet registration approval requirements

The primary prerequisite for medical device manufacturers to purchase is material compliance, in order to avoid any impact on product registration and listing due to non compliant qualifications

1. Implementation standards: Strictly follow GB/T 13810-2017 "Titanium and Titanium Alloy Processing Materials for Surgical Implants", ISO 5832-2 "Metallic Materials for Surgical Implants Part 2: Titanium 6-Aluminum 4-Vanadium Alloy", ASTM F136 international standards, to ensure that the materials can be directly used for bone screw production and NMPA and FDA registration applications.

2. Biosafety: Using high-purity sponge titanium with a purity of ≥ 99.7% as raw material, strictly controlling the content of interstitial elements - nitrogen ≤ 0.01%, hydrogen ≤ 0.001%, to prevent impurities from causing human inflammation, allergies, or tissue reactions during long-term service; Through biocompatibility testing such as cytotoxicity (ISO 10993-5) and allergenicity (ISO 10993-10), third-party authoritative institutions issue qualified reports.

3. Complete qualifications: Each batch of products comes with a complete set of "raw material testing report+production process record+finished product testing report", achieving full traceability from raw materials to finished products and meeting the quality system audit requirements of medical device manufacturers.

2. Mechanical performance requirements: Match clinical needs and ensure safe use

Bone screws need to withstand the complex mechanical environment caused by the weight-bearing and movement of human bones, and the mechanical properties of titanium rods need to balance strength, toughness, and bone compatibility:

1. Core mechanical indicators: tensile strength ≥ 930MPa, yield strength ≥ 860MPa, elongation ≥ 10%, hardness (HV) controlled between 280-340, ensuring stable fixation of the fracture site after bone screw implantation and avoiding deformation and fracture risks.

2. Performance uniformity: The strength and hardness fluctuation within the entire length range is ≤ 5%, the grain size reaches ASTM grade 6 or above, there is no component segregation or uneven structure, ensuring consistent performance of different parts (nail head, nail rod, thread) of the bone stud, and no hidden dangers of cracking or brittle fracture after processing.

3. Bone compatibility: The elastic modulus is approximately 110GPa, which is close to the mechanical properties of human bone (10-30GPa), effectively reducing the "stress shielding effect", promoting fracture healing, and reducing the clinical risk of postoperative osteoporosis and secondary fractures.

III. Requirements for Processing Adaptability: Reduce Production Losses and Improve Production Efficiency

Medical device manufacturers are concerned about whether materials can be efficiently processed into bone nail products to reduce losses and costs in the production process

1. Dimensional accuracy: The diameter tolerance is strictly controlled within ± 0.01mm, the straightness error is ≤ 0.05mm/m, and the diameter tolerance after centerless grinding is h8. It is perfectly compatible with precision thread processing and bending forming processes of bone studs, reducing material waste during turning and grinding processes.

2. Surface quality: The surface is free of defects such as cracks, folds, oxide scales, scratches, etc. After mechanical polishing treatment, the surface roughness Ra is ≤ 0.4 μ m; A dense oxide film is formed on the surface, with a body fluid corrosion resistance rate of ≤ 0.001mm/year, which reduces tool wear and avoids tissue irritation caused by surface defects after implantation.

3. Molding performance: Elongation rate ≥ 10%, cross-sectional shrinkage rate ≥ 30%, meeting the requirements of complex molding processes such as thread rolling and head upsetting of bone studs. It is not easy to have cracks or chipping during the processing, improving the qualification rate of finished products.

Fourth, quality stability requirements: batch consistency, long-term reliability

Medical device manufacturers pay attention to the consistency of batch supply and the long-term stability of product service in procurement, in order to avoid the impact of batch differences on production or clinical use:

1. Batch consistency: The composition, mechanical properties, and dimensional accuracy of the same batch of titanium rods fluctuate by ≤ 3%, and the difference between different batches is ≤ 5%, ensuring that the production process parameters of bone studs do not need to be frequently adjusted and ensuring the stable operation of the production line.

2. Long term stability: After "solid solution+aging" heat treatment (950 ℃/1h solid solution water quenching+600 ℃/2h aging air cooling), stable α+β biphasic tissue is obtained, which can serve in human body fluid environment for a long time (≥ 10 years) without performance degradation, deformation, corrosion, or fracture risks.

3. Full testing guarantee: Each batch of products undergoes full batch spectral composition analysis, full batch ultrasonic non-destructive testing (internal defects ≤ Φ 0.8mm equivalent flat bottom holes), tensile testing, hardness testing, surface quality testing, and zero release of non-conforming products to eliminate quality hazards.

Preferred Partner for Purchasing Medical TC4 Titanium Rod!

We are based on the advantages of the entire industry chain of "China Titanium Valley", with "physical factory+complete qualifications+technical customization+fast delivery" as the core, providing one-stop TC4 titanium rod supply services for medical device manufacturers:

-Our own 8000 square meter production base has an annual production capacity of 300 tons. Standardized products can be delivered within 3 days, and customized specifications can be responded to within 25 days;

-Through ISO 13485 medical quality management system certification and complete testing reports, we assist customers in quickly completing product registration;

-Our 24-hour technical team is online and can provide material selection and process optimization support based on the design requirements of bone studs, such as special specifications and customized mechanical properties.

Choose the TC4 titanium rod specifically designed for Medical Bone Nails, so that you can purchase without compliance concerns, produce without process difficulties, and have no clinical risks in the product, achieving high-quality development in the field of orthopedic implantation through win-win cooperation!