PVC Resin Suppliers & Manufacturer in Peru

March 29,2023

PVC resin suppliers and Manufacturers in Peru

pvc resin is one of the most popular thermoplastic resins used in various applications. It is widely used in pipes, ducts, and other rigid plastics for its strength and dimensional stability.

It can also be used in high-end applications such as automotive sealants, cables, flooring, films, and technical coatings. It is a versatile and inexpensive material that can be customized to end-user requirements.


Chemical Resistance

The chemical resistance of plastics depends on many factors, including the chemicals and additives that are used in their synthesis. However, the most important factor is oxidation by atmospheric oxygen.

PVC is resistant to most inorganic chemicals, including acids, alkalis, and salts. It is also resistant to some alcohols, fats, oils, and aromatic-free petrol.

But it is not tolerant to a wide variety of esters, ketones, and ethers. These substances can cause swelling and reduce tensile strength.

Nevertheless, thePVC material is extremely resistant to chlorinated and aromatic hydrocarbons. This enables it to be used in the transport of gases like flue gas, exhaust gases, and liquids for industrial purposes. The PVC material has a molecular structure in which the chlorine atom is bound to each carbon chain, making it resistant to oxidative reactions.



PVC resins are strong materials that can be used to produce many different types of end products. They are made of vinyl chloride monomer and can be combined with additives to imbue the desired physical properties in end products such as anti-mist, fire retarding, elasticity, flexibility, impact resistance, and microbe prevention.

PVC is an amorphous, polar material, which means that it can easily mix with other substances such as plasticizers and additives. It can be used in place of traditional building materials like wood, steel, and rubber.

These properties allow a wide variety of applications in the construction industry. PVC can be used to create flooring, roofing, pipes and fittings, cladding, electrical appliances, and other products.

There are two main ways to produce PVC: bulk polymerization and suspension resin technology. Bulk polymerization is used to manufacture the clearest and purest form of PVC, as it does not include any emulsifying or suspending agents. Suspension resin technology is used to create transparent and opaque PVC, including UPVC, for building applications.


polyvinyl chloride (PVC) is a thermoplastic material that can be melted again and again. This makes it an ideal material for use in various applications.

PVC resin is made by the polymerization of vinyl chloride monomers (VCM). VCM molecules are sent through a catalyst, where they react until links are formed between them.

This process of synthesis produces PVC resin, which in turn is the starting point for all other vinyl compounds. These vinyl compounds are generally a mix of plasticizers, stabilizers, and modifiers.

Even though making PVC resin is not good for the environment, recycling PVC that has already been used can be very good for the environment. The process of recycling involves breaking up polymers into monomers and other substances that can be used to make new polymers.


PVC is the world’s third-most widely produced polymer of plastic, largely replacing other materials such as wood and concrete. It has a wide range of properties that make it desirable for many applications.

It can be formed in many ways, including extrusion and injection molding. Injection molding is used for high-volume products and involves feeding the raw resin into a heated barrel, injecting it through the mold tool, and then cooling it to harden.

The resin can also be formulated with additives that change its physical properties. These include heat and UV stabilizers, plasticizers, impact modifiers, fillers, and flame retardants. These additives help to increase the stability of the compound and can be used in a variety of different applications. Adding these additives helps increase the strength of the product while reducing its weight. They can also improve its durability and resistance to weathering.