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Replacing metals with plastic has finally become a viable and cost-effective option for many businesses. Engineeredthermoplastics have made great inroads in offering businesses with many of the strengths that metals possess Buster Posey Jersey , without any of the drawbacks that metals can be famous for.

Misconceptions About Plastic

One of the biggest misconceptions of plastic is that it tends to have a lower melt temperature as compared to metals, restricting its use in high temperature applications. This may be true in the broadest of terms, however, there are several flame-retardant properties that can be introduced to composite materials to help raise their melt temp and allow them tomeet stringent flame-smoke-toxicity requirements. In fact, a number of these engineeredthermoplasticssuch as Teflon have a melting point over575°F.

Why Choose Plastics Over Metals?

There are a number of reasons why plastics offer a better alternative to using metals.

• First and foremost, engineeredthermoplastics have 17th the weight of most non-ferrous metals. This means that they act as a boon for industries such as the automobile sector where weight is an incredibly crucial aspect. Reducing weight is critically important for the automotive industry as they strive for ever better mileage with increasingly strict MPG targets put forth by regulators. These types of engineered plastics are hence vital for the automotive mileage quest as they can achieve the strengths of metals without the weight. Moreover Bruce Bochy Jersey , the size and volumes involved means that handling lighter materials makes it easier for the industry. A lighter material also means cheaper transportation costs.

• Plastics help bring about lower production costs and lower actual material costs. It is also often cheaper to produce injection moulded plastic parts when compared to their metal equivalents.

• Finally, thermoplastics don’t corrode or oxidise. This means less maintenance, a superior appearance and a longer life.

How Can I Replace Metal with Plastics?

There are two ways by which you can replace a metal with engineeredthermoplastics –

1.Using a light-weight plastic which has the same physical properties and strength: Light-weight plastics are particularly needed by the automotive sector where these high-gravity compoundshave become indispensable thanks to their various characteristics.