Used to create tubular structures like sutures, catheters, and stents. It offers flexibility and strength, ideal for medical applications that require both.
Used to create tubular structures like sutures, catheters, and stents. It offers flexibility and strength, ideal for medical applications that require both.
Used to create tubular structures like sutures, catheters, and stents. It offers flexibility and strength, ideal for medical applications that require both.
These advanced braiding allow for more complex geometries, providing enhanced strength and customizable designs for implants, scaffolds, and other medical devices.
Used to create tubular structures like sutures, catheters, and stents. It offers flexibility and strength, ideal for medical applications that require both.
Used to create tubular structures like sutures, catheters, and stents. It offers flexibility and strength, ideal for medical applications that require both.
Used to create tubular structures like sutures, catheters, and stents. It offers flexibility and strength, ideal for medical applications that require both.
Used to create tubular structures like sutures, catheters, and stents. It offers flexibility and strength, ideal for medical applications that require both.
Used to create tubular structures like sutures, catheters, and stents. It offers flexibility and strength, ideal for medical applications that require both.
Braiding is a specialized technique used in the fabrication of biomedical textiles, where multiple strands of fibres are interlaced diagonally to form tubular or flat structures. This method is ideal for creating products that require high tensile strength and flexibility, such as sutures, stents, vascular grafts, and ligatures. Braided structures are used to day for minimally invasive procedures and as stents due to their unique capability to reduce its diameter due to axial elongation . The braiding process allows for customization of thickness, material choice, and performance characteristics to suit specific medical needs.
Each technique is chosen based on the functional and mechanical needs of the final medical product, ensuring durability, biocompatibility, and optimal performance.
Our lightweight, high-performance medical braids deliver exceptional strength comparable to steel, while offering superior flexibility. These braids are designed to meet the rigorous demands of the medical field, combining robustness with ease of use for applications requiring both durability and pliability. With advanced braiding technologies, our braids ensure precision, adaptability, and reliable performance, making them ideal for sutures, vascular grafts, and other implantable devices where both strength and flexibility are critical for success.
1. Round Braiding: Used to create tubular structures like sutures, catheters, and stents. It offers flexibility and strength, ideal for medical applications that require both.
2. Flat Braiding: Produces flat, ribbon-like structures, often used in ligatures and specialized wound closures where surface area matters.
4.Two-dimensional and Three-dimensional Braiding:These advanced braiding technologies allow for more complex geometries, providing enhanced strength and customizable designs for implants, scaffolds, and other medical devices.