Catheter reflow process

The catheter reflow process is a manufacturing technique used to bond the multiple layers of a catheter’s shaft to create a unified structure. This process is essential for catheters that need to have specific characteristics, such as flexibility and strength, to navigate through the body’s vasculature. Here is a detailed explanation of the catheter reflow […]

composite tube manufacturing

Composite tube manufacturing is made by catheter reflow machine. There are 7 steps. 1. Catheter Assembly Composite tubes are often constructed of several layers of materials, including a liner, reinforcement layer, and outer jacket:Liner: This is the innermost layer that contacts the fluids or devices passing through the catheter. It is usually made from materials […]

Composite Tube Materials

Composite catheter is a medical device made by integrating different materials together. It integrates multiple advantages such as high strength, high flexibility, excellent surface properties, and biocompatibility through lamination or coating processes, greatly improving the comprehensive performance and applicability of medical catheters. Composite tube materials include: Thermoplastics These are plastics that become pliable or moldable […]

What is catheter reflow?

Catheter reflow is a process used in the manufacturing of catheters, where multiple layers of materials that make up the catheter shaft are bonded together. This process typically involves the application of heat and sometimes pressure to melt and fuse the layers, creating a single, integrated structure. The term “reflow” refers to the melting and […]

Reinforced Tube Manufacturing Machine

Reinforced Tube Manufacturing machine is catheter reflow machine. It fuse tubes of different materials together to form reinforced tubes and combining the advantages of these materials. CM80 reinforced tube manufacturing machine Precise Temperature Control: To ensure uniform shrinkage of heat shrink tubing, CM80 is able to accurately control the heating temperature. Uniform Heat Distribution: Heat […]

Reflow Lamination Catheter

Reflow Lamination Catheter (RLC) is a medical catheter manufacturing technique that utilizes a reflow soldering process to permanently bond different layers of catheter material through heating and cooling. Reflow soldering itself is a common technique used in the electronics manufacturing industry to solder electronic components to printed circuit boards. However, when manufacturing multi-layer conduit, this […]

Catheter Laminator Machine

The Catheter Laminator Machine is a specialized device used to produce medical-grade catheters. It combines different types of plastic or polymer materials using thermal laminating technology to form catheters for various medical applications. Catheter laminator machine requires highly accurate control systems. This ensures that catheter performance and dimensions meet the stringent standards of the medical […]

Horizontal Laminator

Horizontal laminator is typically a reflow machine for medical catheters. It operates horizontally to heat and pressurize multiple layers of thin film material to form a composite structure for medical catheters.This type of machine is particularly suited to the production of short catheters, as its horizontal construction allows the material to remain smooth throughout the […]

Catheter Laminating Equipment

Catheter laminating equipment is a specialized machine used in the manufacture of medical catheters. These machines are specifically designed to combine multiple layers of materials to form a composite catheter with specific performance characteristics. The lamination process typically involves combining different types of plastics or other polymeric materials through heat and pressure to meet specific […]

How do you ensure uniform layer-to-layer bonding during processing on these machines?

1. Precise temperature control A precise temperature control system is used to ensure uniform temperature distribution throughout the heating zone. Temperature control must be precise to ensure that the material reaches the proper softening point, but not so hot that it overheats and causes material damage. 2. Uniform pressure distribution Moreover, The equipment must be […]

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