PT&C Balloon Tubing sets a high standard in the medical device industry for precision and reliability. Constructed from the highest purity materials, this tubing is meticulously extruded to ensure stringent dimensional accuracy. It is specifically designed to meet and exceed the demanding requirements of the medical sector. The multi-layer, high-pressure capabilities of PT&C Balloon Tubing make it suitable for various critical applications, including balloon catheters and angioplasty, offering healthcare professionals consistent performance and dependability.
Precision Tolerances: PT&C Balloon Tubing is extruded with exacting precision, ensuring tight dimensional tolerances that are crucial for accurate balloon formation and consistent performance in a variety of medical applications. This high level of precision supports the reliability of medical procedures such as angioplasty, where balloon performance is critical.
Enhanced Mechanics: With minimal elongation and superior tensile strength, PT&C tubing is engineered to endure the mechanical stresses encountered during medical procedures. These features contribute to the durability and reliability required for balloon inflation and deflation, ensuring that the tubing maintains its integrity under high-pressure conditions.
High Concentricity: The ability to achieve high concentricity in the tubing is vital for uniform balloon formation, which directly impacts the efficacy and safety of medical devices. PT&C Balloon Tubing excels in this regard, meeting or exceeding the stringent industry standards for concentricity, which ensures a uniform, consistent inflation pattern during medical procedures.
Robust Construction: PT&C Balloon Tubing is constructed with thick walls, providing exceptional burst strength and resistance to fatigue. These properties ensure that the tubing can withstand repeated inflation cycles and high-pressure environments without failure, making it ideal for demanding medical applications where patient safety is paramount.
These key advantages ensure that PT&C Balloon Tubing delivers the performance, durability, and safety required in critical medical applications.
Outer Diameter: PT&C Balloon Tubing achieves an outer diameter as small as 0.01 inch, with a tight tolerance of ± 0.0005 inch for both the inner and outer diameters. This level of precision ensures consistent tubing dimensions critical for accurate balloon formation and device performance.
Wall Thickness: The tubing maintains a robust minimum wall thickness of 0.001 inch, offering structural strength without compromising flexibility or precision, essential for demanding medical procedures.
Concentricity: The tubing exceeds 95% concentricity, which is critical for ensuring uniform balloon formation. This high concentricity helps maintain consistent inflation patterns, contributing to the effectiveness and safety of medical devices.
Bonding: PT&C Balloon Tubing demonstrates superior adhesion between layers, ensuring structural integrity and reliable performance under the pressure and stresses typical in medical applications.
Materials: The tubing is available in various high-performance materials such as PET, Pebax, PA, and TPU, which offer excellent properties like flexibility, strength, and biocompatibility to suit diverse design needs and requirements.
Mechanical Properties: The tubing features minimal elongation and a tensile range within ≤100%, ensuring mechanical stability during inflation and deflation cycles. This provides consistency in performance under dynamic conditions.
Burst Resistance: PT&C Balloon Tubing is designed with high burst resistance, making it ideal for applications that require maintaining pressure integrity, such as angioplasty and other vascular interventions.
Fatigue Strength: The tubing exhibits high fatigue strength, ensuring durability through repetitive use, which is crucial for medical devices that undergo multiple inflation and deflation cycles.
These advanced technical capabilities ensure that PT&C Balloon Tubing meets the rigorous performance, durability, and precision requirements of medical professionals across various specialties.
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