Description
0.20mm Black Oxidized Nitinol Wire for Advanced Alloy Development
Unlock new possibilities in alloy development with our 0.20mm Black Oxidized Nitinol Wire. Designed for next-generation smart material applications, this wire integrates superior mechanical behavior with engineered surface properties. Whether you’re advancing medical technology, precision robotics, or miniaturized sensors, this product provides the ideal platform for cutting-edge innovation in alloy systems.
Engineered Materials for Alloy Development Excellence
High-Purity Core Composition
Our wire begins with a precise blend of high-purity Nickel and Titanium—essential for reliable transformation temperatures and mechanical responsiveness. This elemental balance supports consistent performance in demanding alloy development environments.
Advanced Thermal Processing
We apply controlled manufacturing techniques to ensure uniform shape memory and superelasticity throughout each length of wire. This guarantees optimal results in both experimental and production settings.
Integrated Black Oxide Surface
A specialized oxidation process forms a durable, adherent black oxide layer—not simply a coating but a functional enhancement that is critical in high-performance alloy engineering.
Optimized Surface Properties for Demanding Alloy Projects
Uniform Oxide Layer for Surface Integrity
Our process delivers a consistently blackened finish with excellent adherence and durability—ideal for applications involving friction, strain, or chemical exposure.
Reduced Friction and Enhanced Lubricity
This wire glides effortlessly through complex pathways, reducing resistance and minimizing abrasion. It’s ideal for use in catheter systems, actuators, and other dynamic systems developed during alloy innovation.
Corrosion and Wear Resistance
The black oxide layer resists degradation in harsh biological and industrial environments—preserving the functionality of the base alloy over time.
Biocompatible Surface for Medical Alloy Systems
Engineered for safe interaction with bodily tissues and fluids, the black oxide finish enhances safety and performance for implantable and interventional devices.
Precise Diameter Control for Alloy Development Applications
Ultra-Fine 0.20mm Diameter
This wire’s specific size enables delicate assembly and motion control, essential in many alloy development use cases including surgical tools and MEMS components.
Dimensional Accuracy & Consistency
Tight manufacturing tolerances ensure consistent diameter throughout every meter—critical for stress distribution and device performance.
Custom Diameters on Request
We can tailor sizes to match your alloy testing or R&D specifications upon request.
Innovative Applications Powered by Alloy Development
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Medical Device Development
From guidewires to endoscopic tools, the kink resistance and flexibility of this wire make it ideal for next-generation minimally invasive devices. -
Micro-Actuators & Smart Mechanisms
Leverage the shape memory effect in robotic assemblies and MEMS components for compact, reliable motion solutions. -
Advanced Sensors
Its predictable stress-strain response is ideal for precision strain gauges and position feedback systems in smart devices. -
Orthodontic & Dental Technologies
Used in archwires that apply steady, biologically gentle forces—supporting controlled movement. -
Scientific Research in Alloy Systems
Enable breakthroughs in metallurgy, surface science, and biomedical engineering with a wire that supports experimental precision. -
Micro-Electronic Connectors
Supports flexible, fatigue-resistant electrical pathways for compact circuits and wearable tech.
•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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