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Fatigue Resistant Biocompatible Ultra-Thin Wall Nitinol Tube for Medical and Aerospace Applications

Fatigue Resistant Biocompatible Ultra-Thin Wall Nitinol Tube for Medical and Aerospace Applications

MOQ: 1Meter
Ceny: Negotiatable
standardowe opakowanie: skrzynka
Okres dostawy: 2-30 dni
metoda płatności: T/T, Western Union
Pojemność dostaw: 20000 sztuk tygodniowo
Szczegółowe informacje
Miejsce pochodzenia
Jiangsu, Chiny
Nazwa handlowa
niktech
Orzecznictwo
ISO 9001:2008
Numer modelu
nitinol
MOQ:
1Meter
Czas realizacji:
7-20 dni
Pojemność:
500000 pCS miesięcznie
Uszczelka:
Neutralne opakowanie
Powierzchnia:
Jasna powierzchnia
Szereg:
Stop NITI
Aplikacja:
wniosek o zastosowanie medyczne
pamięć kształtu:
Stop z pamięcią kształtu
Podkreślić:

Fatigue Resistant Nitinol Tube

,

Biocompatible Nickel-Titanium Tubing

,

Ultra-Thin Wall Shape Memory Alloy Tube

Opis produktu

Nitinol Tube Fatigue Resistant Shape Memory Nickel-Titanium Tubing for Aerospace Thermal Actuator & Orthopedic Implant Hardware

 

1.Product Description 

Fabricated via double vacuum melting and multi-pass micro cold drawing, this ultra-thin wall nitinol tube maintains strictly controlled nickel-titanium atomic ratio to satisfy ASTM F2063 biocompatibility thresholds. The uniform seamless lumen eliminates inner burrs, drastically lowering friction during guidewire and contrast medium delivery inside narrow human blood vessels. Tunable superelastic plateau matches soft vascular tissue modulus to avoid vessel wall abrasion during long interventional procedures. Electropolished surfaces suppress ion precipitation and bacterial adhesion, while precisely stabilized transformation temperatures deliver predictable self-expansion performance for micro stents and occlusion devices. Optimized micro dimensional tolerances support cleanroom laser machining for minimally invasive medical components across Western and European clinical R&D labs.
 
Fatigue Resistant Biocompatible Ultra-Thin Wall Nitinol Tube for Medical and Aerospace Applications 0

2.Full Calibrated Parameter Table 

Test Category Standard Spec Value Supplementary Industry Remarks
Chemical Composition (wt%) Ni: 54.5–57.0, Ti: Balance; C ≤0.005, Fe ≤0.025, O+N ≤0.05, H ≤0.002, Co/Cu/Cr ≤0.005 VIM-VAR medical clean melt grade
Ultimate Tensile Strength ≥1070 MPa (155 ksi) Annealed delivery state
Minimum Fracture Elongation ≥10% Room temperature tensile testing
Max Permanent Set after 6% Strain ≤0.3% Critical for long-term implant stability
Recoverable Superelastic Strain 6–8% Room-temperature superelastic variant
Austenite Finish Temp (Af) -10℃ ~ +15℃ Custom heat treatment for tailored transformation
Alloy Density 6.5 g/cm³ Core physical density of NiTi alloy
Melting Temperature 1310 ℃ High thermal stability for aerospace use
Standard Outer Diameter Range 0.15mm – 12mm Micro hypotube to structural tubing
Standard Wall Thickness 0.02mm – 1.0mm Tolerance ±0.005mm for precision machining
Mandatory Executive Standards ASTM F2063, ISO 10993, ISO 13485 Biomedical & aerospace global regulatory benchmarks
Available Surface Finishes Electropolished, Passivated, Bright Drawn Low-friction biocompatible surfaces

3. Advantage 

  1. Burr-free seamless inner lumen design cuts flow resistance for smooth contrast and instrument delivery in narrow neurovascular channels
  2. Tissue-matching elastic modulus reduces vessel injury risks during repeated device navigation inside fragile human microvasculature
  3. Ultra-low impurity vacuum melting technology extends cyclic fatigue lifespan for permanent micro implant structures
  4. Custom Af temperature calibration enables self-expansion matching human physiological temperature for interventional stent deployment
  5. Micro precision dimensional control fits cleanroom laser cutting, shaping and electropolishing post-processing workflows
  6. Passivated & electropolished dual surface treatment inhibits nickel ion release and microbial adhesion inside bodily fluid environments
  7.  

4. Application 

This ultra-thin wall nitinol hypotube serves as core raw semi-finished material for neurovascular stents, cerebral embolization devices, micro catheter shafts and peripheral vascular intervention components. It also applies to minimally invasive urological and biliary endoscopic delivery systems. Medical R&D teams, clinical device labs and component processors across North America and Europe adopt this alloy tubing for high-precision low-trauma surgical equipment development.
 

5. FAQ 

Q1: What advantages does seamless nitinol hypotube own over welded thin-wall tubing for neuro procedures?
 
A: Weld seams generate sharp inner edges that scratch fragile vessel linings, while seamless drawn nitinol tube delivers smooth continuous lumen to eliminate tissue abrasion risks during navigation.
 
Q2: Can ultra-micro outer diameter below 0.3mm be customized for ultra-fine intervention instruments?
 
A: All OD and wall thickness dimensions can be adjusted to ultra-micro sizes to match ultra-fine catheter and micro stent design drawings.
 
Q3: Does this micro nitinol tube pass full biocompatibility testing for permanent intracranial implants?
 
A: All batches complete ISO 10993 cytotoxicity, sensitization and corrosion testing to meet permanent intracranial implant access standards.
 
Q4: How to adjust shape recovery temperature to match human body environment?
 
A: Targeted low-temperature heat treatment calibrates Af temperature to near 37℃ for automatic self-expansion once implanted inside human tissue.
produkty
szczegółowe informacje o produktach
Fatigue Resistant Biocompatible Ultra-Thin Wall Nitinol Tube for Medical and Aerospace Applications
MOQ: 1Meter
Ceny: Negotiatable
standardowe opakowanie: skrzynka
Okres dostawy: 2-30 dni
metoda płatności: T/T, Western Union
Pojemność dostaw: 20000 sztuk tygodniowo
Szczegółowe informacje
Miejsce pochodzenia
Jiangsu, Chiny
Nazwa handlowa
niktech
Orzecznictwo
ISO 9001:2008
Numer modelu
nitinol
MOQ:
1Meter
Czas realizacji:
7-20 dni
Pojemność:
500000 pCS miesięcznie
Uszczelka:
Neutralne opakowanie
Powierzchnia:
Jasna powierzchnia
Szereg:
Stop NITI
Aplikacja:
wniosek o zastosowanie medyczne
pamięć kształtu:
Stop z pamięcią kształtu
Minimalne zamówienie:
1Meter
Cena:
Negotiatable
Szczegóły pakowania:
skrzynka
Czas dostawy:
2-30 dni
Zasady płatności:
T/T, Western Union
Możliwość Supply:
20000 sztuk tygodniowo
Podkreślić

Fatigue Resistant Nitinol Tube

,

Biocompatible Nickel-Titanium Tubing

,

Ultra-Thin Wall Shape Memory Alloy Tube

Opis produktu

Nitinol Tube Fatigue Resistant Shape Memory Nickel-Titanium Tubing for Aerospace Thermal Actuator & Orthopedic Implant Hardware

 

1.Product Description 

Fabricated via double vacuum melting and multi-pass micro cold drawing, this ultra-thin wall nitinol tube maintains strictly controlled nickel-titanium atomic ratio to satisfy ASTM F2063 biocompatibility thresholds. The uniform seamless lumen eliminates inner burrs, drastically lowering friction during guidewire and contrast medium delivery inside narrow human blood vessels. Tunable superelastic plateau matches soft vascular tissue modulus to avoid vessel wall abrasion during long interventional procedures. Electropolished surfaces suppress ion precipitation and bacterial adhesion, while precisely stabilized transformation temperatures deliver predictable self-expansion performance for micro stents and occlusion devices. Optimized micro dimensional tolerances support cleanroom laser machining for minimally invasive medical components across Western and European clinical R&D labs.
 
Fatigue Resistant Biocompatible Ultra-Thin Wall Nitinol Tube for Medical and Aerospace Applications 0

2.Full Calibrated Parameter Table 

Test Category Standard Spec Value Supplementary Industry Remarks
Chemical Composition (wt%) Ni: 54.5–57.0, Ti: Balance; C ≤0.005, Fe ≤0.025, O+N ≤0.05, H ≤0.002, Co/Cu/Cr ≤0.005 VIM-VAR medical clean melt grade
Ultimate Tensile Strength ≥1070 MPa (155 ksi) Annealed delivery state
Minimum Fracture Elongation ≥10% Room temperature tensile testing
Max Permanent Set after 6% Strain ≤0.3% Critical for long-term implant stability
Recoverable Superelastic Strain 6–8% Room-temperature superelastic variant
Austenite Finish Temp (Af) -10℃ ~ +15℃ Custom heat treatment for tailored transformation
Alloy Density 6.5 g/cm³ Core physical density of NiTi alloy
Melting Temperature 1310 ℃ High thermal stability for aerospace use
Standard Outer Diameter Range 0.15mm – 12mm Micro hypotube to structural tubing
Standard Wall Thickness 0.02mm – 1.0mm Tolerance ±0.005mm for precision machining
Mandatory Executive Standards ASTM F2063, ISO 10993, ISO 13485 Biomedical & aerospace global regulatory benchmarks
Available Surface Finishes Electropolished, Passivated, Bright Drawn Low-friction biocompatible surfaces

3. Advantage 

  1. Burr-free seamless inner lumen design cuts flow resistance for smooth contrast and instrument delivery in narrow neurovascular channels
  2. Tissue-matching elastic modulus reduces vessel injury risks during repeated device navigation inside fragile human microvasculature
  3. Ultra-low impurity vacuum melting technology extends cyclic fatigue lifespan for permanent micro implant structures
  4. Custom Af temperature calibration enables self-expansion matching human physiological temperature for interventional stent deployment
  5. Micro precision dimensional control fits cleanroom laser cutting, shaping and electropolishing post-processing workflows
  6. Passivated & electropolished dual surface treatment inhibits nickel ion release and microbial adhesion inside bodily fluid environments
  7.  

4. Application 

This ultra-thin wall nitinol hypotube serves as core raw semi-finished material for neurovascular stents, cerebral embolization devices, micro catheter shafts and peripheral vascular intervention components. It also applies to minimally invasive urological and biliary endoscopic delivery systems. Medical R&D teams, clinical device labs and component processors across North America and Europe adopt this alloy tubing for high-precision low-trauma surgical equipment development.
 

5. FAQ 

Q1: What advantages does seamless nitinol hypotube own over welded thin-wall tubing for neuro procedures?
 
A: Weld seams generate sharp inner edges that scratch fragile vessel linings, while seamless drawn nitinol tube delivers smooth continuous lumen to eliminate tissue abrasion risks during navigation.
 
Q2: Can ultra-micro outer diameter below 0.3mm be customized for ultra-fine intervention instruments?
 
A: All OD and wall thickness dimensions can be adjusted to ultra-micro sizes to match ultra-fine catheter and micro stent design drawings.
 
Q3: Does this micro nitinol tube pass full biocompatibility testing for permanent intracranial implants?
 
A: All batches complete ISO 10993 cytotoxicity, sensitization and corrosion testing to meet permanent intracranial implant access standards.
 
Q4: How to adjust shape recovery temperature to match human body environment?
 
A: Targeted low-temperature heat treatment calibrates Af temperature to near 37℃ for automatic self-expansion once implanted inside human tissue.