Polypropylene is a thermoplastic polymer that Polypropylene pumps manufacturers employ on a wide range of items. The polymer is distinguished by its lightweight structure, great strength against deformation, and good chemical resistance. The material is also a lower-cost option for metallic components. If you’re looking for a new magnetic drive pump, these are the top reasons you should consider installing polypropylene pumps.
J. Paul Hogan and Robert L. Banks, scientists at Phillips Petroleum, invented polypropylene in 1951. Commercial manufacture of the material began in 1957, and it has since been utilized in the textile, injection moulding, chemical processing, culinary, pharmaceutical, petrochemical, and oil sectors.
Advantages of Polypropylene Pumps
Pump makers have integrated polypropylene into their product line due to its unique properties:
• High resistance to stress and cracking.
• High operational temperatures with a melting point of 160°C.
• Excellent strength-to-weight ratio.
• Resistant to most alkalis, acids, organic solvents, degreasing chemicals, and electrolytic attacks.
There are several additional benefits of utilizing polypropylene pumps. Polypropylene pumps resist corrosion and can endure a wide range of acids, solvents, and alkalis. The heavy-duty structure and moulding prevent leaks and increase the pump’s life. Most significantly, polypropylene pumps are simple to manufacture and assemble during construction, which reduces total expenses.
Magnetic Drive Pump BC-3CP-MD
This American-made centrifugal pump is ideal for chemical recirculation and transfer. Acetic Acid, Citric Acid, Ethylene Glycol, Formaldehyde, Hydrochloric Acid (Muriatic), Nitric Acid, Phosphoric Acid, Potassium Chloride, Potassium Hydroxide, Sodium Hydroxide (Caustic Soda), Sodium Chloride, Sulfuric Acid, Fresh Water, Salt Water, DI Water, and other substances have all been pumped by the BC-3CP-MD.
Magnetic Drive Pump BC-2CP-MD
This magnetic drive pump features a polypropylene impeller and front and rear casing. Ice makers, laboratory and medical equipment, vapour degreasers, and maritime air conditioning systems are some examples of applications. This pump can likewise tolerate the substances listed above, as does the BC-3CP-MD.
Magnetic Drive Pump BC-4C-MD-AM
The Polypropylene pumps also include a polypropylene impeller and housing. It can handle chemicals and solvents that range from mild to severely corrosive. It is suited for use in chemical recirculation and transfer systems.
Working Principle of Polypropylene Pumps
A connected shaft transports compressed air from one chamber to the next, allowing the chambers to move together. The fluid is transported by the alternating and repeating back-and-forth motion of two flexible diaphragms mounted on a common shaft.
Furthermore, the Polypropylene Pumps are driven by compressed air and include a sophisticated distribution system. Compressed air is used to steer the two air chambers on opposite sides of the diaphragm. The shaft moves to the left, and the movement of the diaphragms increases the volume of pumping chamber A while lowering the volume of pumping chamber B. The movement from chamber B to chamber A is repeated. Valves on both sides of the pumping chambers guarantee that fluid travels in a single direction through the pump, from intake to output.
Key Features and Advantages of Polypropylene Pumps
Polypropylene Pump Distributor in India, Kiron Hydraulic Needs, has designed these pumps for usage in extremely acidic situations. Some of the advantages of these pumps are listed below:
• Polypropylene pumps are capable of running dry.
• Polypropylene pumps effectively handle solids and are safe to deadhead.
• Pumps do not shear the finished product.
• Polypropylene pumps don’t require power.
• Initially, polypropylene pumps were affordable to purchase.
• Polypropylene pumps are self-priming and may be submerged.
• These polypropylene pumps have no seals.
• They offer adjustable flow and head pressures without cumbersome controls.
• Exhibit excellent chemical and temperature resistance.
• Polypropylene pumps and air-operated double diaphragm pumps can handle varying viscosities.
• Polypropylene pumps are easily cleaned and disinfected.
• The polypropylene pump is portable.
• Polypropylene pumps are easy to install and configure.
Applications of Polypropylene pumps
Pumps made of polypropylene are a low-cost corrosion-resistant option that may be used in a range of applications. Polypropylene pumps are often fitted with diaphragms consisting of PTFE, Viton, or SantopremeTM.
Furthermore, when these elastomers are used in Polypropylene pumps, they may pump benzyl, diacetone, phosphoric acid, ferrous sulfate, isopropyl chloride, converter oils, and many other similar liquids.
Furthermore, these elastomers make it simple to pump benzyl, diacetone, phosphoric acid, ferrous sulfate, isopropyl chloride, converter oils, and a range of other comparable liquids. These pumps have a wide range of uses in sectors such as chemicals, pharmaceuticals, and electronics manufacturing.
Our Principals
March Pump, founded in 1954, is a US manufacturer that specializes in the creation and assembly of magnetic drive pumps and chemical pumps for a variety of sectors. March Pumps are utilized in OEM and end-user applications like boat air conditioners, medical systems, chillers, water treatment, plating, and more.
Polypropylene is a versatile and cost-effective alternative for magnetic drive pumps. The polymer is resistant to strong chemicals, requires less maintenance, and is less expensive to create. Consider using a polypropylene pump for your next centrifugal pump. For additional information, please call Kiron Hydraulic Needs immediately.