Description
Smart Performance in Every Strand: Clean Oxidized State Nitinol Wire 0.10mm
What Is Shape Memory Alloy?
What is shape memory alloy? It’s metal with a mind of its own. Shape Memory Alloys (SMAs) are remarkable materials that “remember” their original form. When deformed, they return to their preset shape with heat or stress release. Among them, Nitinol (Nickel Titanium) is the standout performer. This alloy exhibits both shape memory effect and superelasticity—bend it, twist it, and it springs back with precision. These unique behaviors make Nitinol ideal for smart devices that require movement, force, or both in compact spaces.
About Our Product: Clean Oxidized State Nitinol Wire – 0.10mm
We proudly offer premium Clean Oxidized State Nitinol Wire, engineered with a precise 0.10mm diameter and a surface optimized for performance. This high-purity wire is designed to meet the stringent needs of today’s medical, electronic, and micro-engineering fields.
Key Features and Material Benefits
Material Composition:
Our Nitinol wire is made from a carefully controlled Nickel-Titanium alloy. This precise composition ensures consistent shape memory behavior and superelastic response across batches.
Surface Finish – Clean Oxidized State:
The wire features a tightly bonded titanium oxide layer grown in a controlled environment. This surface is smooth, uniform, and highly stable—ideal for applications requiring biocompatibility and low nickel ion release. Unlike bare wire, this finish enhances corrosion resistance and simplifies integration with coatings or bonding agents.
Micro Precision Diameter – 0.10mm:
With a consistent 0.10mm thickness, this wire is perfect for ultra-miniaturized applications. Our precision manufacturing process ensures dimensional stability and repeatable performance along the entire length.
Advanced Applications Powered by Smart Materials
Medical Uses:
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Minimally Invasive Devices: Navigate micro blood vessels with precision in catheters and guidewires.
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Orthodontic Solutions: Superelastic archwires deliver consistent, gentle force.
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Surgical Innovation: Powers micro-actuators for pumps and valves in drug delivery.
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Implantable Devices: Supports biocompatible stents and MRI-safe implants.
Electronics & Sensing:
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Micro-Actuators: Enable movement in optical switches or positioning systems.
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Sensors: React to temperature or position changes using material phase transitions.
Precision Micro-Engineering:
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Micro-Robotics: Acts as artificial muscles for small robotic joints.
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Fluidic Control: Regulates flow in microfluidic and lab-on-chip systems.
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Thermal Safety Mechanisms: Activates releases in response to heat in safety devices.
Why Choose Our Clean Oxidized Nitinol Wire?
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✅ Superior Biocompatibility – Reduced nickel release for safe in-body use.
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✅ Enhanced Corrosion Resistance – Long-lasting in harsh or biological conditions.
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✅ Reliable Shape Memory & Superelasticity – Consistent mechanical and thermal behavior.
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✅ High Surface Stability – Ideal for further processing, bonding, or coating.
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✅ Precision Manufacturing – Dimensional accuracy critical for micro-device integration.
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✅ Innovation-Ready – Slim diameter supports next-gen designs in medicine, sensors, and robotics.
Unlock Possibility with Clean Oxidized Nitinol
This isn’t just wire—it’s a smart material engine that brings ideas to life. With its unmatched shape memory, flexibility, and clean surface finish, our Clean Oxidized State Nitinol Wire 0.10mm is ready to drive innovation in advanced fields. Contact us today to explore how shape memory alloy can power your next breakthrough.
•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 via nitinolwire.com
▸ Linkedin account:Ben Xiang | LinkedIn
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