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Engineering plastics, which include polycarbonate and PC resin, are plastics that are specifically created for improved strength, temperature resistance, and other mechanical qualities.
Plastic lenses for eyewear, medical devices, automobile parts, protective gear, greenhouses, digital discs (CDs, DVDs, and Blu-ray), and outdoor lighting fixtures are all frequently made of PC.
Due to its indestructible qualities, polycarbonate sheet offers far superior security against theft and vandalism. Polycarbonate is 250 times more impact resistant than safety glass, safeguarding the contents as well as lowering the danger of injuries from shattered glass.
Which is stronger between steel and polycarbonate? More flexible than steel and 200 times stronger by weight than steel, polycarbonate can sustain explosions of over 900 psi. Due to its ability to flex and revert to its initial shape, polycarbonate is able to absorb impact energy.
Polycarbonate’s primary drawback is that it isn’t scratch-resistant. For instance, a polycarbonate patio canopy would get scratched if a branch were to fall on it.
The polycarbonate can be polished to solve this issue.An amorphous glassy thermoplastic called polycarbonate is prone to cracking or crazing when put under pressure or in contact with chemicals. Medical equipment come into contact with a lot of the polycarbonate used in their moulding.
The Global houseware polycarbonate resin market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Trident Plastics, Inc. Plastic polymers known as engineering resins have superior mechanical and/or thermal qualities to regular commodity plastics.
These resins, which have a high degree of tensile strength and are often resistant to high temperatures, wear, and corrosives, are frequently utilised as alternatives to metal or wood in order to save cost or weight while preserving strength and performance.
Compared to normal plastic resins, all goods made with these engineering resins typically have better mechanical, thermal, or electronic advantages.
They are used in significant and demanding applications such the military, aerospace, medical, automotive, and appliance industries as a result of these improved qualities.
A growing number of industrial applications, including those in the automotive, electrical/electronic, building construction, medical, and appliance industries, require materials with properties including rigidity, strength, resistance to heat and impact, and chemical stability.
