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The strongest quality of polycarbonate is its durability. It is one of the strongest transparent plastics on the market, being more than 200 times stronger than glass.
It is not only lightweight compared to most other resins and significantly lighter than glass, aluminium, and even steel in terms of weight per volume.
According to popular belief, polycarbonate resin challenges the notion that strong materials must be heavy and transparent materials must inevitably be delicate.
Because of these characteristics, polycarbonate resin products can be used in settings where transparency is required but shattering is not acceptable.
Engineering plastics, which include polycarbonate and PC resin, are plastics that are specifically created for improved strength, temperature resistance, and other mechanical qualities.
When compared to heavier, more rigid materials, polycarbonate resin’s excellent stress absorption capabilities and light weight make it ideal for industrial applications like machine parts and electronic components.
Its transparency, durability, and non-shattering qualities of polycarbonate resin also make it a workable and secure alternative to glass.
The Global biomass PC resin market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Products manufactured of biomass PC resin have the same physical properties as resins made of. typical petroleum-derived BPA, enabling their use in industrial products like electrical parts and car lighting.
Strong, highly malleable, and able to maintain its crystal-clear transparency after processing are all qualities of polycarbonate resin.
It is a plastic, making it incredibly moldable and capable of taking on almost any shape or pattern. Polycarbonate resin was initially only practical for specific kinds of processing.
MGC created a method for producing polycarbonate sheets in 1967 and perfected it for scale manufacturing in 1971.
Making these innovations available to other producers sparked the explosive growth of different polycarbonate goods and uses.
Because of its great thermal stability and fire resistance, polycarbonate resin can be utilized in settings where other polymers frequently physically degrade, such as areas with significant swings in temperature between hot and cold.
Engineered plastic’s range of possible uses is greatly increased by polycarbonate resin, offering new advantages for producers.
