Peristaltic Pump Tubing Process and Performance

The choice of peristaltic pump tubing can affect the flow rate and accuracy of the pump, and different materials can be used to transport different types of fluids, such as food, pharmaceuticals, and strong acids and bases. Many people may not be familiar with the production process and performance of peristaltic pump tubing. Only by understanding these aspects can you make informed decisions when purchasing peristaltic pump tubing.

Peristaltic pump tubing, also known as peristaltic pump silicone tubing, is produced through platinum vulcanization vertical extrusion using high-purity imported silicone rubber raw materials. It features a smooth inner cavity, non-stick inner wall, high dimensional accuracy, uniform wall thickness, high wear resistance, high tear resistance, and high rebound rate. It can meet FDA, LFGB, REACH, RoHS, and biocompatibility standards. It can operate in a temperature range of -50°C to 200°C and can be sterilized at high temperature and high pressure using ethylene oxide, gamma rays, and beta rays.

Peristaltic pump tubing has excellent tear resistance, tensile strength, rebound resilience, and fatigue resistance. The tubing is produced in strict accordance with tolerance requirements to ensure that the dimensions meet technical requirements. Peristaltic pump silicone tubing has high light transmittance, a smooth inner wall, and high cleanliness. It can transport most chemical organic solvents and can withstand acids and bases with concentrations below 30%. It has excellent aging resistance, oxidation resistance, and low permeability. Even high-viscosity liquids can be transported.

Peristaltic pump tubing (silicone tubing) can be used in filling systems, titration constant flow pumps, laboratory peristaltic pumps, and other equipment. It has a wide range of applications in environmental engineering, water treatment, laboratories, food and beverage industries, and more.