PSU Applications

PSU materials generally exhibit good oxidation resistance, which helps improve the stability of the filter cartridge header in long-term use. Prevents fluid from clogging and causing damage when passing through it.

PSU has excellent high temperature resistance and chemical stability, able to maintain its physical and chemical properties in high temperature environments, reducing damage to the filter cartridge header when chemical liquid substances come into contact, which may be a problem in some industrial and special applications Advantage.

The filter head needs to provide an effective seal to prevent unfiltered fluid from bypassing the filter element and entering the system. This helps ensure filter performance and efficiency.

The ventilator humidifier is a device used to provide humidity to patients in the ventilator system. It plays a very important role, and the selection of materials is also very strict.

As a high-performance material, PSU is biocompatible. PSU usually has good biocompatibility and is suitable for parts of ventilator humidifiers that may come into contact with patients.

PSU has good resistance to many chemicals and is suitable for water vapor and chemicals that may be present in humidifiers. Using PSU materials can extend the service life of the ventilator humidifier and improve the reliability of the humidifier.

Medical filters refers to a broad category of filters used in various medical applications to ensure the purity and safety of air, liquids, or gases. These filters play a crucial role in medical devices and equipment, helping to prevent the spread of contaminants, bacteria, viruses, or other harmful particles. 

When medical filters are used, whether they are liquid or gas filters, they are usually under high pressure differential conditions. The high mechanical strength of PSU helps to manufacture structurally stable medical filter components.

Medical filters must maintain the purity of the filtrate or filtered gas. PSU is generally considered a safe engineering plastic and is suitable for parts in contact with medical fluids to help reduce patients' allergic reactions to the filter.

When designing and manufacturing medical filters, factors such as material compatibility, biocompatibility, filtration efficiency, and compliance with regulatory standards are crucial. These filters contribute significantly to infection control, patient safety, and the overall effectiveness of medical equipment and procedures.

Using PSU materials to make hemodialyzers can conduct careful research and experiments on special projects or daily experiments and blood processing. PSU materials are also widely used in the current medical field.

Although PSU materials are biocompatible, hemodialyzers made of PSU still need to be tested for biocompatibility to prevent defects in the product during production and processing, and to ensure that the PSU material will not cause immune reactions in patients or Other adverse reactions.

In the production of hemodialyzers, the purity of the PSU material is crucial, and the purity of the material needs to be maintained to prevent impurities or additives from interfering with the dialysis process.

Medical supplies require high-temperature sterilization and sterilization. PSU has high thermal stability, which allows the hemodialysis membrane to withstand high-temperature sterilization or cleaning.

PSU has good corrosion resistance to many chemicals and is suitable for various liquids that the flow meter may come into contact with.

PSU usually has high mechanical strength and hardness, which helps to create a structurally stable and durable flow meter. Because PSU is a high-performance material and non-brittle, it is suitable for the production of flow meters.

Before making a flow meter, the characteristics of the PSU and the chemical properties of the liquid to be measured need to be analyzed. The characteristics of the PSU need to match the chemical properties of the liquid to be measured to ensure accurate flow measurement.