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High performance plastics used in the automotive industry

Plastics comprise of a wide range of synthetic and semi-synthetic materials, which are strong, moldable and lightweight in nature.

Thermodynamics is often considered the second derivative of metallurgy, since it also deals with the behavior of the heat source - in this case, an element - in its solid state at any given temperature. Understanding thermodynamics is fundamental to understanding High-Performance Plastic. High-performance plastics usually have a temperature range of more than 303 F, so they need to be protected from the effects of extreme temperature changes. An excellent solution for this problem is known as heat-resistant polyimide, which can provide excellent protection against heat transfer throughout any given cycle. Furthermore, high-performance plastics tend to exhibit superior electrical and physical properties, which translate directly into better performance when it comes to the handling, production, and storage of materials.

 

High-performance plastics are specialty plastics with higher requirements as compared to common engineering plastics. These types of plastics are more expensive and thus are used in smaller amounts. The use of High-Performance Plastics in industrial processes has been steadily growing over the past few decades. One of the driving forces behind the use of High-Performance Plastics in today's modern world is the advent of new, advanced technology and materials. The primary driving force behind the use of High-Performance Plastics in modern-day industrial processes is thermodynamics. 

Source: Free Articles from ArticlesFactory.com

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Thermodynamics deals with heat transfer from a solid to a gas or liquid, and the efficiency of said transfer at any given temperature.

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