Description
0.01mm Nitinol Memory Metal Wire – Black Oxidized for Micro-Precision Innovation
Nitinol memory metal wire redefines micro-engineering.
Our ultra-fine 0.01mm black oxidized nitinol wire delivers shape memory and superelasticity at an unprecedented micro scale. Designed for advanced medical, electronic, and precision applications, this wire enables high-performance solutions in the tiniest of spaces.
Material: Nickel Titanium Shape Memory Alloy
Nitinol is a revolutionary alloy of Nickel (Ni) and Titanium (Ti) known for its:
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Shape Memory Effect (SME): Deforms under force, but returns to its original shape with heat.
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Superelasticity: Endures extreme bending or stretching, instantly snapping back.
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High Fatigue Resistance: Withstands repeated cycles without losing performance.
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Mechanical Strength at Micro Scale: Maintains high strength even at 0.01mm.
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Medical-Grade Biocompatibility: Safe for use in human body environments.
Surface Finish: Durable Black Oxidized Coating
This wire features a black oxide layer created through controlled oxidation. It offers:
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Superior Corrosion Resistance for harsh or biomedical environments.
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Enhanced Lubricity for smoother handling and device integration.
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Improved Visibility under microscopes or against tissue backgrounds.
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Cosmetic Uniformity by hiding micro surface flaws.
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Adhesion Base for further coatings or bonding applications.
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Preserved Flexibility that retains Nitinol’s superelastic nature.
Diameter: Precision-Engineered 0.01mm (10 Microns)
Manufactured to an exact 0.01mm diameter, this wire offers:
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Minimal Invasiveness in surgical or diagnostic devices.
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Tight Dimensional Tolerances for consistent quality.
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Superior Flexibility ideal for dynamic applications.
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High Packing Density in compact, multi-functional devices.
Applications: Miniaturizing the Future
Medical Devices:
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Guidewires, micro-stents, neural probes, orthodontic archwires, endoscopic tools, and surgical actuators.
Electronics & Sensors:
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Micro-actuators, strain sensors, thermal switches, nano-connectors, and MEMS elements.
Precision Engineering:
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Watch springs, smart textiles, micro-meshes, filtration media, and R&D prototypes.
Why Choose Our 0.01mm Black Oxidized Nitinol Memory Metal Wire?
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Unmatched SME & Superelasticity at micro scale
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Superior Black Oxide Protection against corrosion and friction
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ISO 10993 Certified Biocompatibility
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Tight Diameter Control & Repeatability
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Improved Visibility for Assembly & Surgery
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Expert Support & Global Reliability
Engineer the microscopic future with our black oxidized 0.01mm nitinol memory metal wire—a precision-engineered solution built for breakthroughs in micro-medical, sensing, and advanced technologies.
•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) |
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