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Diameter 0.8mm~3.5mm Titanium Capillary Pipe Titanium Seamless Tube For Medical ASTM F67, F136, ASTM F136, ASTM F1295
*If you have any requirements for customized titanium seamless capillary for medical, we would be delighted to further discuss the technical specifications with you and provide a quotation.
*Our production capacity is efficient, and our logistics channels are well-developed. We can deliver products via international express to any corner of the globe within 5 to 10 days.
Titanium seamless tubing specifications & parameters | |
Product name | Titanium seamless tube |
Application field | Surgical implants, stents, dental implants, orthopedic devices |
Available size | Outer Diameter 0.5-10mm, Inner Diameter 0.2-9.5mm, Length 50-3000mm |
Grade | Grade 1, Grade 4, Grade 5 (Ti-6Al-4V), Grade 7 |
Production stadards | ASTM F67, ASTM F136, ASTM F1295, ISO 5832 |
Tolerance | ±0.05mm for OD, ±0.03mm for ID |
Rolling process | Cold Rolling, Hot Rolling |
Surface process | Pickling, Polishing, Anodizing |
Delivery time | 13-15days |
Pivotal Contributions of Medical-Grade Titanium Capillaries
Seamless Tube: An Analytical Overview
The utilization of Titanium Capillary in healthcare applications
has seen a notable upswing, presenting clinicians with a resource
that perfectly aligns with their rigorous demands for durability,
biocompatibility, and dependability. Occupying a distinguished
niche in the medical device arena, BaseTi's Titanium Capillaries
are engineered to meet the most complex healthcare challenges.
Exhibiting an optimal set of mechanical and chemical properties, titanium capillaries provide a unique blend of high strength-to-weight ratios, remarkable corrosion resilience, and unparalleled biocompatibility. Specifically, these capillaries demonstrate tensile strengths ranging from 30,000 to 200,000 psi, contingent on the grade of titanium deployed.
These capillaries are indispensable in crafting state-of-the-art surgical tools like scalpels and forceps. For context, a market analysis from 2020 established that titanium-based surgical tools constituted a market valuation of roughly $180 million. Beyond this, these capillaries play a pivotal role in constructing cardiovascular stents and orthopedic implants, capitalizing on titanium's lightweight and robust characteristics.
Here at BaseTi, we focus on creating and supplying Titanium Capillaries for healthcare applications, compliant with global standards such as ASTM F67 and ASTM F136. Our products maintain a dimensional tolerance of +/- 0.01 mm, qualifying them for utilization in high-precision medical apparatuses.
Final Thoughts
In a market landscape where the valuation of the medical device
sector is projected to escalate to $612.7 billion by 2025, Titanium
Capillaries have emerged as a foundational material for
future-forward healthcare solutions. With its superior tensile
strength, outstanding biocompatibility, and resistance to
corrosion, it's clear that titanium capillaries are setting a new
paradigm in medical technology.
Column Header | Explanation | Example Data | Grade of Titanium | Corresponding Standard |
---|---|---|---|---|
Titanium Composition | Percentage of titanium in the alloy | 99.5% | Grade 1, Grade 4 | ASTM F67, ASTM F136 |
Iron (Fe) | Max percentage of iron content | 0.2% | Grade 1, Grade 4 | ASTM F67, ASTM F136 |
Oxygen (O) | Max percentage of oxygen content | 0.18% | Grade 1 | ASTM F67 |
Carbon (C) | Max percentage of carbon content | 0.08% | Grade 4 | ASTM F136 |
Nitrogen (N) | Max percentage of nitrogen content | 0.03% | Grade 1, Grade 4 | ASTM F67, ASTM F136 |
Hydrogen (H) | Max percentage of hydrogen content | 0.015% | Grade 1, Grade 4 | ASTM F67, ASTM F136 |
Aluminum (Al) | Presence and percentage of aluminum (if applicable) | 5-6% | Grade 5 | ASTM F136 |
Vanadium (V) | Presence and percentage of vanadium (if applicable) | 3.5-4.5% | Grade 5 | ASTM F136 |
Column Header | Explanation | Example Data | Grade of Titanium | Corresponding Standard |
---|---|---|---|---|
Tensile Strength | Measure of how much stress the material can endure before breaking | 30,000-200,000 psi | Grade 1, Grade 4 | ASTM F67, ASTM F136 |
Elongation | Measure of how much the material can be stretched | 15-25% | Grade 2, Grade 5 | ASTM F67, ASTM F136 |
Density | Measure of mass per unit volume | 4.51 g/cm³ | Grade 1, Grade 4 | ASTM F67, ASTM F136 |
Thermal Conductivity | Measure of the material's ability to conduct heat | 21.9 W/(m·K) | Grade 1, Grade 4 | ASTM F67, ASTM F136 |
Elastic Modulus | Measure of the material's stiffness or rigidity | 100-110 GPa | Grade 2, Grade 5 | ASTM F67, ASTM F136 |
Corrosion Resistance | Qualitative measure of how well the material stands up to corrosive environments | Excellent | Grade 1, Grade 4 | ASTM F67, ASTM F136 |
Biocompatibility | Qualitative measure of the material's compatibility with biological systems | Excellent | Grade 1, Grade 4 | ASTM F67, ASTM F136 |
Column Header | Explanation | U.S. Grade | European Grade | Corresponding U.S. Standard | Corresponding European Standard | Application Areas | Main Products in the Application Area |
---|---|---|---|---|---|---|---|
General Medical | General Medical-grade Titanium used for broad applications | Gr 1, Gr 4 | Ti-3Al-2.5V | ASTM F67, ASTM F136 | ISO 5832-3 | Surgical implants, Orthopedic | Dental implants, Hip replacements |
High Strength | Titanium used for high-stress medical applications | Gr 5 (Ti-6Al-4V) | Ti-6Al-7Nb | ASTM F136 | ISO 5832-11 | Fracture fixation devices | Bone screws, Plates |
High Corrosion-Resistance | Titanium with high corrosion resistance | Gr 7 | Ti-15Mo | ASTM F1295 | ISO 5832-14 | Cranial plates | Cranial mesh, Skull plates |
Biocompatible | Highly biocompatible titanium for sensitive applications | Gr 9 | Ti-13Nb-13Zr | ASTM F1713 | ISO 5832-9 | Spinal fusion | Vertebral spacers, Pedicle screws |