0.065mm Nitinol Microfilament with Shape Memory Alloys Energy & Black Oxide Finish

Description

Black Oxidized Nickel Titanium Microfilament 0.065mm: Advanced Shape Memory Alloy Wire with Exceptional Energy Efficiency

Discover the Ultra-Thin Power of Black Oxidized Nickel Titanium Microfilament 0.065mm

Looking for an ultra-fine wire that combines remarkable strength with intelligent shape recovery? Our Black Oxidized Nickel Titanium Microfilament at 0.065mm diameter is engineered to deliver precisely that. Crafted from premium Shape Memory Alloys, this wire stores and releases energy through its unique “muscle memory” effect—making it ideal for cutting-edge micro-devices requiring precision and durability.

Premium Material: High-Purity Nitinol Core for Superior Shape Memory Energy

At the heart of this microfilament lies a carefully crafted Nickel Titanium alloy (Nitinol), prized for its remarkable capacity to retain and release energy through its shape memory properties. Thanks to this special composition, the wire exhibits exceptional superelasticity, enabling it to bend repeatedly without deformation, and returns to its original form when heated slightly—harnessing stored energy efficiently.

Durable Surface Finish: Black Oxide Coating for Protection and Performance

Our advanced black oxide treatment ensures a uniform, matte black finish that enhances durability by resisting scratches and corrosion. This coating not only extends wire lifespan but also reduces glare—critical for applications in optical and imaging systems—while delivering a sleek, professional appearance. Thanks to its tight bond with the Nitinol core, the black oxide finish stays put and performs well, even under stress.

Precision Diameter Control: 0.065mm for Micro-Scale Innovation

At just 0.065mm (0.0026 inches) in diameter, this microfilament is thinner than a human hair, manufactured with strict diameter consistency to support precise engineering. This ultra-thin wire enables groundbreaking designs in medical devices, micro-robotics, and advanced instrumentation where space and reliability are paramount.

Key Applications: Harnessing Shape Memory Alloys Energy for Impactful Micro Solutions

• Medical Devices: Micro-guidewires, stents, surgical tools, and orthodontic archwires utilize the wire’s superelasticity and shape memory energy to perform reliably inside the human body.

• Microelectronics: Perfect for micro-actuators, connectors, and flexible micro-robotic components requiring high durability and precise movement.

• Advanced Optics & Instrumentation: Enables vibration damping and precision positioning in sensitive equipment.

• R&D: Facilitates the prototyping of next-gen micro-devices by exploiting the wire’s unique energy storage and release properties.

Why Choose Our Black Oxidized Nickel Titanium Microfilament?

• Unrivaled Miniaturization: Allows engineers to push design limits in the micro realm.

• Exceptional Flexibility & Durability: Repeated bending without failure ensures longer device life.

• Powerful Shape Memory Effect: Converts heat into mechanical energy efficiently.

• Enhanced Surface Protection: Black oxide layer improves wear resistance and aesthetics.

• Biocompatibility & Corrosion Resistance: Ideal for medical and harsh environments.

• Precision Guaranteed: Consistent 0.065mm diameter and superior straightness.

• Expertise & Innovation: Backed by deep knowledge of shape memory alloys energy applications.

Unlock the future of micro-technology with our Black Oxidized Nickel Titanium Microfilament 0.065mm—where precision, strength, and intelligent energy storage converge.

•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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