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Nitinol Tube ASTM F2063 VIM-VAR Alloy Hypotube with Ultra-Low Inclusion for Neurovascular Minimally Invasive Devices

Nitinol Tube ASTM F2063 VIM-VAR Alloy Hypotube with Ultra-Low Inclusion for Neurovascular Minimally Invasive Devices

MOQ: 1 metro
Preço: Negotiatable
Embalagem padrão: caixa
Período de entrega: 2-30days
Método de pagamento: T/T, União Ocidental
Capacidade de abastecimento: 20000pcs pela semana
Informações detalhadas
Lugar de origem
Jiangsu, China
Marca
niktech
Certificação
ISO 9001:2008
Número do modelo
nitinol
Quantidade mínima:
1 metro
Tempo de espera:
7-20 dias
Capacidade:
500000pcs por mês
Embalagem:
Embalagem Neutra
Superfície:
Superfície brilhante
Série:
Niti liga
Aplicativo:
aplicativo de uso médico
memória da forma:
Alumínio
Destacar:

Nitinol tube ASTM F2063 compliant

,

VIM-VAR alloy hypotube neurovascular

,

Ultra-low inclusion Nitinol tube

Descrição do produto

Nitinol Tube ASTM F2063 VIM-VAR Alloy Hypotube with Ultra-Low Inclusion for Neurovascular Minimally Invasive Devices

 

1.Product Description 

Forged through vacuum induction melting paired with vacuum arc remelting and multi-pass precision cold drawing, this medical-grade nitinol tube adheres rigidly to ASTM F2063 chemical thresholds to eliminate harmful trace impurities that trigger tissue irritation. The alloy balances room-temperature superelasticity and thermal-triggered shape memory, delivering recoverable strain up to 8% with minimal permanent deformation after millions of cyclic bending cycles. Electropolished seamless inner and outer surfaces cut fluid friction and form a stable passive titanium oxide barrier against bodily fluid corrosion. Customizable transformation temperatures, micro thin-wall tolerances and concentricity control support micro hypotube catheter frames and large structural tubing for aerospace actuation, serving precision engineering projects across North America, Europe, Southeast Asia and the Middle East.
 
 

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. VIM-VAR dual vacuum melting production drastically reduces internal inclusions, boosting 100+ million cycle bending fatigue resistance for long-term implant use
  2. Seamless drawn forming eliminates welding seams, lowering fluid shear friction inside catheter and stent delivery systems
  3. ISO 10993 biocompatibility verified, passive titanium oxide film blocks nickel ion leaching to reduce human tissue inflammation risk
  4. Tunable phase transition temperatures via controlled heat treatment, matching human body temperature and aerospace extreme thermal fluctuation conditions
  5. Ultra-tight wall thickness & concentricity tolerances, compatible with laser cutting, laser welding and shapesetting cleanroom post-processing
  6. Multiple polished surface treatments to fit cardiovascular, orthopedic, endoscopic and aerospace actuator assembly workflows
  7.  

4. Application 

This precision nitinol tube acts as the foundational raw tubing for Class II & III permanent and temporary implantable medical hardware, including self-expanding vascular stents, neuro interventional hypotubes, transcatheter valve frames, orthodontic shaping components and endoscopic catheter shafts. Beyond clinical sectors, it serves lightweight aerospace thermal actuators, miniature thermal sensing pipelines and industrial shape-memory drive structures. Medical device R&D labs, interventional surgery equipment developers and aerospace precision engineering facilities across global regions rely on this alloy tubing for minimally invasive clinical treatment and lightweight mechanical assembly.
 

5. FAQ 

Q1: What metallurgical process separates medical-grade nitinol tube from industrial nickel-titanium tubing?
 
A: Medical variants adopt VIM-VAR double vacuum melting to strictly limit trace impurity content and meet ASTM F2063 & ISO 10993 biocompatibility standards, while industrial nitinol tubing relaxes chemical control without biocompatibility validation.
Q2: Can nitinol tube restore its original geometry after repeated bending deformation?
 
A: Room-temperature superelastic grades fully recover shape after up to 8% strain with negligible permanent set; shape memory variants revert to pre-programmed dimensions once heated above customized Af transformation temperature.
Q3: Can outer diameter, wall thickness and transformation temperature be modified per custom design drawings?
 
A: All dimensional parameters and phase transition temperatures can be precisely adjusted to match exclusive stent, catheter or aerospace component structural blueprints.
Q4: Does electropolished nitinol tube resist corrosion inside human blood and saline environments?
 
A: The nano-thick passive titanium oxide layer formed on electropolished surfaces delivers consistent corrosion resistance against bodily fluids for multi-year implant service cycles.
produtos
Detalhes dos produtos
Nitinol Tube ASTM F2063 VIM-VAR Alloy Hypotube with Ultra-Low Inclusion for Neurovascular Minimally Invasive Devices
MOQ: 1 metro
Preço: Negotiatable
Embalagem padrão: caixa
Período de entrega: 2-30days
Método de pagamento: T/T, União Ocidental
Capacidade de abastecimento: 20000pcs pela semana
Informações detalhadas
Lugar de origem
Jiangsu, China
Marca
niktech
Certificação
ISO 9001:2008
Número do modelo
nitinol
Quantidade mínima:
1 metro
Tempo de espera:
7-20 dias
Capacidade:
500000pcs por mês
Embalagem:
Embalagem Neutra
Superfície:
Superfície brilhante
Série:
Niti liga
Aplicativo:
aplicativo de uso médico
memória da forma:
Alumínio
Quantidade de ordem mínima:
1 metro
Preço:
Negotiatable
Detalhes da embalagem:
caixa
Tempo de entrega:
2-30days
Termos de pagamento:
T/T, União Ocidental
Habilidade da fonte:
20000pcs pela semana
Destacar

Nitinol tube ASTM F2063 compliant

,

VIM-VAR alloy hypotube neurovascular

,

Ultra-low inclusion Nitinol tube

Descrição do produto

Nitinol Tube ASTM F2063 VIM-VAR Alloy Hypotube with Ultra-Low Inclusion for Neurovascular Minimally Invasive Devices

 

1.Product Description 

Forged through vacuum induction melting paired with vacuum arc remelting and multi-pass precision cold drawing, this medical-grade nitinol tube adheres rigidly to ASTM F2063 chemical thresholds to eliminate harmful trace impurities that trigger tissue irritation. The alloy balances room-temperature superelasticity and thermal-triggered shape memory, delivering recoverable strain up to 8% with minimal permanent deformation after millions of cyclic bending cycles. Electropolished seamless inner and outer surfaces cut fluid friction and form a stable passive titanium oxide barrier against bodily fluid corrosion. Customizable transformation temperatures, micro thin-wall tolerances and concentricity control support micro hypotube catheter frames and large structural tubing for aerospace actuation, serving precision engineering projects across North America, Europe, Southeast Asia and the Middle East.
 
 

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. VIM-VAR dual vacuum melting production drastically reduces internal inclusions, boosting 100+ million cycle bending fatigue resistance for long-term implant use
  2. Seamless drawn forming eliminates welding seams, lowering fluid shear friction inside catheter and stent delivery systems
  3. ISO 10993 biocompatibility verified, passive titanium oxide film blocks nickel ion leaching to reduce human tissue inflammation risk
  4. Tunable phase transition temperatures via controlled heat treatment, matching human body temperature and aerospace extreme thermal fluctuation conditions
  5. Ultra-tight wall thickness & concentricity tolerances, compatible with laser cutting, laser welding and shapesetting cleanroom post-processing
  6. Multiple polished surface treatments to fit cardiovascular, orthopedic, endoscopic and aerospace actuator assembly workflows
  7.  

4. Application 

This precision nitinol tube acts as the foundational raw tubing for Class II & III permanent and temporary implantable medical hardware, including self-expanding vascular stents, neuro interventional hypotubes, transcatheter valve frames, orthodontic shaping components and endoscopic catheter shafts. Beyond clinical sectors, it serves lightweight aerospace thermal actuators, miniature thermal sensing pipelines and industrial shape-memory drive structures. Medical device R&D labs, interventional surgery equipment developers and aerospace precision engineering facilities across global regions rely on this alloy tubing for minimally invasive clinical treatment and lightweight mechanical assembly.
 

5. FAQ 

Q1: What metallurgical process separates medical-grade nitinol tube from industrial nickel-titanium tubing?
 
A: Medical variants adopt VIM-VAR double vacuum melting to strictly limit trace impurity content and meet ASTM F2063 & ISO 10993 biocompatibility standards, while industrial nitinol tubing relaxes chemical control without biocompatibility validation.
Q2: Can nitinol tube restore its original geometry after repeated bending deformation?
 
A: Room-temperature superelastic grades fully recover shape after up to 8% strain with negligible permanent set; shape memory variants revert to pre-programmed dimensions once heated above customized Af transformation temperature.
Q3: Can outer diameter, wall thickness and transformation temperature be modified per custom design drawings?
 
A: All dimensional parameters and phase transition temperatures can be precisely adjusted to match exclusive stent, catheter or aerospace component structural blueprints.
Q4: Does electropolished nitinol tube resist corrosion inside human blood and saline environments?
 
A: The nano-thick passive titanium oxide layer formed on electropolished surfaces delivers consistent corrosion resistance against bodily fluids for multi-year implant service cycles.