Nitinol Alloy
Superelastic Nitinol Tubing – High-Performance Shape Memory Alloy for Medical Devices & Aerospace Components
Superelastic Nickel Titanium Nitinol Alloy Tube Low Thermal Conductivity Product Specifications Attribute Value Density 6.45 G/cm3 Material Nickel-Titanium Corrosion Resistance High Biocompatibility High Shape Memory Temperature 50-100°C Fatigue Resistance High Superelasticity Yes Elongation 10% Product Description Nitinol Alloy features low thermal conductivity, making it ideal for high-temperature applications requiring minimized heat transfer. Its excellent fatigue
Nitinol Shape Memory Alloy Tube – 1100 MPa Tensile Strength, 10% Elongation
Nitinol 10% Elongation Shape Memory Alloy With 1100 MPa Tensile Strength Product Specifications Attribute Value Density 6.45 G/cm3 Young's Modulus 55 GPa Fatigue Resistance High Electrical Conductivity Low Superelasticity Yes Elongation 10% Shape Memory Temperature 50-100°C Material Nickel-Titanium Applications Nitinol shape memory alloy is widely used in medical applications including orthodontic wires, stents, and surgical instruments due to its superelasticity and high
Nitinol Shape Memory Alloy – 1100 MPa Tensile Strength for Medical & Aerospace
1100 MPa Shape Memory Nitinol Metal 55 GPa Young's Modulus Product Specifications Attribute Value Shape Memory Yes Melting Point 1310°C Thermal Conductivity Low Tensile Strength 1100 MPa Material Nickel-Titanium Young's Modulus 55 GPa Fatigue Resistance High Elongation 10% Product Overview Nitinol alloy stands out among high nickel alloys like Inconel and Copper Nickel due to its exceptional properties. With a tensile strength of 1100 MPa and Young's Modulus of 55 GPa, this
High Temperature Nitinol Tube – 6.45 g/cm³ Density Shape Memory Alloy
Biocompatibility And Density High Temperature Nickel Alloy Tube 6.45 G/cm3 Product Specifications Attribute Value Superelasticity Yes Shape Memory Temperature 50-100°C Biocompatibility High Tensile Strength 1100 MPa Young's Modulus 55 GPa Thermal Conductivity Low Corrosion Resistance High Density 6.45 G/cm3 Product Overview Our Nitinol Alloy Tube stands out for its exceptional corrosion resistance, making it ideal for harsh and corrosive environments. The material's high
Nitinol Tubes | 6.45 g/cm³ Density – Superelastic Alloy for Medical & Aerospace Applications
6.45g/cm³ Density Nitinol Tubes For Temperature Applications Product Specifications Attribute Value Tensile Strength 1100 MPa Biocompatibility High Thermal Conductivity Low Superelasticity Yes Material Nickel-Titanium Corrosion Resistance High Melting Point 1310°C Electrical Conductivity Low Product Features Our Nitinol Alloy tubes combine exceptional properties that make them ideal for demanding applications across multiple industries: Superelasticity: Returns to original
Biocompatible Nitinol Tubes for Medical Stents and Implants
Corrosion Resistant Nitinol Tubes For Biomedical Elasticity Product Specifications Attribute Value Density 6.45 G/cm3 Tensile Strength 1100 MPa Melting Point 1310°C Biocompatibility High Young's Modulus 55 GPa Shape Memory Yes Material Nickel-Titanium Thermal Conductivity Low Product Overview Nitinol alloy stands out for its exceptional superelasticity, allowing it to stretch up to 10% of its original length and fully recover its shape. This makes it ideal for medical devices
High-Purity Nitinol Wire for Medical Devices ASTM F2063
High-Purity Nitinol Wire: Trends, Grades, and Medical Device Applications Product Specifications Attribute Value Shape Round, Square, Seamless, Welded Alloy Type Nickel Chromium Iron Advantage Fast Delivery Time High Temperature Resistance Up to 1093 °C Modulus Of Elasticity 205 GPa Size 6~500mm Surface Treatment Anodized, Brushed, Mill Finished, Polished Technique Hot Rolled, Hot Forged, Cold Drawn Low Temperature Resistance Up to -196 °C Trademark HUONA Specific Heat 448 J
Nitinol Wire High Corrosion Resistance Shape Memory Alloy
Nitinol Wires: Materials Analysis and Corrosion Resistance Product Specifications Density 6.45 g/cm³ Shape Wire Corrosion Resistance High Thermal Conductivity 11.7 W/m·K Sample Support Product Surface Bright Origin China Young's Modulus 55-75 GPa Product Composition Nickel Titanium Customization Support Electrical Conductivity Low Status Straight Product Shape Strip/Ribbon Service OEM/ODM Shape Memory Temperature 50-100°C Premium Nitinol Wire Solutions Nitinol wires represent
Nitinol Wire Superelastic Shape Memory Alloy for Medical Aerospace
Nickel Titanium Alloy Wire: Grades, Benefits, and Industrial Applications Product Specifications Attribute Value Electrical Resistivity 82.6 μΩ·cm Surface State bright and black Shipping Way By air/sea/express Shape Memory Temperature 50-100°C Hs Code 750522 Applications Medical devices, aerospace, automotive, consumer electronics Superelasticity Yes Product Composition Titanium Nickel Specification Customized Customization Support Product Overview Nickel titanium alloy wire,
Superelastic Nitinol Wire for Biomedical Stents and Guidewires
Superelastic Nitinol Wire: Properties and Biomedical Uses Key Specifications Attribute Value Thermal Expansion 13-17 µm/mK Wall Tolerance ±3-5% Alloy Composition Nickel-Titanium Alloy Standard Size 1220mm*2440mm*3mm/4mm/5mm/6mm Available Sizes 5 to 250 mm Elongation 30-60% Thermal Conductivity 9.8 W/m·K Ultimate Strength 620-790 MPa High Temperature Performance Maintains strength and oxidation resistance at high temperatures Nickel Content 72% (Min) Surface Treatment Anodized
ASTM F2063 Nitinol Wire for Medical and Aerospace Applications
Nitinol Wire: Materials, Grades, and Shape Memory Applications Product Specifications Magnetic Properties Non-magnetic Raw Materials NI34.5-36.5%,CR11.5-13.0% Executive Standard ASTM Specific Heat 450 J/kg-°C Melting Range 1332-1380 ℃ Wall Tolerance ±3-5% Form MIG(15kg/spool), TIG(5kg/box), Strip Price Term CIF CFR FOB EXW Technique Hot Rolled, Hot Forged, Cold Drawn Delivery State Sosoloid Delivery Status Cold Rolling Mo Content 2.8-3.3% Ultimate Strength 620-790 MPa Form Of