Polyvinyl chloride (PVC), a thermoplastic with an amorphous structure, is distinguished by its high solidity and a notable modulus of elasticity.
This material finds application in an operating temperature range between -10 °C and +60 °C. It boasts excellent properties of chemical stability and resistance to acids.
PVC proves to be an effective electrical insulator and exhibits low water absorption. It is also physiologically inert; however, its suitability for food use depends on the stabilization process it has undergone.
One of its most appreciable characteristics is its excellent fire resistance, as it is a self-extinguishing material. Furthermore, it offers the possibility of being welded and glued.
Thanks to its high resistance to acids, PVC is widely used in the production of components intended for the chemical, galvanic, and petrochemical industries.
PVC – Polyvinyl Chloride
- PVDF – Polyvinylidene Fluoride
- PC – Polycarbonate
- PEI – Polyetherimide
- PET – Polyethylene Terephthalate
- PSU – Polysulfone
- PA 66 – TECAMID NATURAL
- PPSU – Polyphenylsulfone
- PA 6 C – TECAST T NATURAL
- PA 6 – Polyamide 6
- PPS – Polyphenylene Sulfide
- POM – Polyoxymethylene (Acetal)
- PTFE – Polytetrafluoroethylene
- PP – Polypropylene
- PI – Polyimide
- PE – Polyethylene
- PAI – Polyamide-imide
- PVC – Polyvinyl Chloride
- PEEK – Polyetheretherketone
