Description
Medical Nitinol Wire (0.04mm) – The New Standard for Microsurgery
Experience precision and reliability like never before. Our Black Oxidized State Medical Nitinol Wire delivers a breakthrough in microsurgery, offering unparalleled superelasticity and precision. At an ultra‑fine 0.04mm diameter, this microfilament suture is designed for the most delicate and challenging medical interventions.
Superior Material: Superelastic Medical Nitinol
Engineered from medical‑grade Nitinol, this microfilament offers an exceptional blend of strength, superelasticity, and resilience.
-
Shape Memory: Returns instantly to its original straight form after bending, making placement and handling seamless.
-
Kink Resistance: Avoids permanent deformation, preserving its integrity throughout long, complex procedures.
-
Fatigue Resistance: Endures millions of bending cycles, making it ideal for long‑term implantation and dynamic environments.
Precision Diameter for Advanced Microsurgery
With an ultra‑thin diameter of 0.04mm, this wire delivers precision access for intricate surgeries. Its slender profile allows for easy navigation through confined spaces and minimizes tissue trauma. As a result, it has become an ideal choice for a range of specialties, including ophthalmic, microvascular, neurosurgical, endovascular, ENT, plastic/reconstructive, orthopedic, and dental applications.
Key Applications: Where Precision Matters Most
-
Ophthalmic Surgery: Enables secure intraocular lens placement, retinal detachment repairs, and glaucoma drainage device implantation.
-
Microvascular & Neurosurgery: Supports meticulous anastomosis of tiny blood vessels and reliable placement of micro‑scale implants.
-
Endovascular Procedures: Facilitates the secure attachment of flow diverters, embolization coils, and stents within complex vessel anatomies.
-
ENT & Plastic/Reconstructive Surgery: Enables delicate tissue approximation for ear, nose, and facial reconstructive surgeries.
-
Laparoscopic & Robotic Surgery: Provides precise suturing deep within the body, making it ideal for minimally invasive procedures.
-
Orthopedic & Dental Fixation: Enables secure fixation of bone fragments and micro‑meshes where traditional, bulkier materials cannot be used.
Why Choose Our Medical Nitinol Wire?
-
✅ Unmatched Superelasticity: Enables precise placement and reliably returns to its original shape, even after complex maneuvers.
-
✅ Exceptional Fatigue Resistance: Endures millions of bending cycles, making it ideal for dynamic or long‑term surgical environments.
-
✅ Biocompatible Oxide-Black: Reduces Ni ion release, improves corrosion resistance, and offers sharp visual contrast for enhanced intraoperative visibility.
-
✅ High Strength‑to‑Size Ratio: Delivers robust tensile strength despite its ultra‑thin diameter, making it ideal for precision applications.
-
✅ Secure Knot Holding: Enables confident, secure suturing for critical microsurgical procedures.
-
✅ Proven and Dependable: Medical‑grade Nitinol with a long track record of safety and reliability for long‑term implants and precision medical devices.
Engineered for Excellence in Microsurgery
More than just a suture, this 0.04mm Black Oxidized Medical Nitinol Wire is an essential tool for precision microsurgery. Crafted under stringent quality controls, it delivers consistency, durability, and performance across every batch.
Moreover, thanks to its superelastic properties, biocompatible surface, and fatigue resistance, it provides a level of precision and reliability that modern microsurgeons require. In short, it is the ideal choice for the most challenging medical procedures — where precision and trust matter most.
•Diameter & Tolerance
Diameter(mm) |
Tolerance(mm) |
Diameter(mm) |
Tolerance(mm) |
Diameter(mm) |
Tolerance(mm) |
4.000-2.000 |
±0.025 |
0.350-0.260 |
±0.010 |
0.08-0.050 |
±0.005 |
2.000-1.000 |
±0.020 |
0.260-0.150 |
±0.007 |
0.050-0.025 |
±0.005 |
1.000-0.350 |
±0.010 |
0.150-0.080 |
±0.005 |
0.025-0.018 |
±0.003 |
•Mechanical properties
Max force(N) |
Tensile(MPa) |
Elongation % |
Upper stress(MPa) |
Residual strain(WT%) |
At temp |
Base on diam |
≥1000 (1350) |
≥10 (15) |
≥400 (460) |
<0.5 55.96 |
(10±10) |
Base on diam |
≥1000 (1350) |
≥10 (15) |
≥400 (460) |
<0.5 56.1 |
(-30±10) |
Base on diam |
≥1000 (1350) |
≥10 (15) |
≥400 (460) |
<0.5 50.0 |
(60±10) |
▸ Expert Guidance: 24/7 support
▸ Facebook account:Facebook
Reviews
There are no reviews yet.