Specialty Polymers Have The Ability To Retain Desirable Chemical, Thermal, And Mechanical Properties5/17/2023 Specialty Polymers are substances added to plastics, elastomers, and composites to improve their physical properties while offering corrosion, weathering, and abrasion resistance, biocompatibility, electrical insulation, and better heat conductivity. They are used across various industry verticals, such as automotive, consumer goods, building & construction, and healthcare. Increasing demand in these industries is driving the global market.
Using these specialty polymers allows engineers to design products with a low NVH, and a long product life. The automotive industry is constantly facing challenges: increasing safety and performance, cutting noise and emissions,a reducing weight, and improving comfort. These requirements require innovative and high-performance materials. Kuraray offers a wide range of automotive polymers to help customers meet their goals and specifications. These include thermoplastic elastomers and liquid rubbers that provide reliable functionality, lightweight, durability, and wear resistance. These properties also contribute to the reduction of NVH, or noise, vibration, and harshness. In addition to their use in vehicles, Specialty Polymers are also used in construction projects and electronic applications. Rising demand for these materials in the construction and electronic sectors is anticipated to boost their market growth. Specialty polymers are a critical part of the manufacturing of consumer goods such as electronics, clothing, and transportation. They have many specialized properties that enable them to be customized for specific applications. Thermoplastics and elastomers are the most common types of specialty polymers. They are used to manufacture packaging, tires, and automotive components. There are several other types of specialty polymers, including engineering and composite materials. Each is unique in terms of its physical, mechanical, thermal, and chemical properties. Examples of specialty polymers include polyethersulfone (PE) and polyphenyl sulfone (PP). PE is a semicrystalline thermoplastic that has good heat deflection temperature, chemical resistance, and nonpolar molecular structure. It is a good barrier material that protects foods from oxygen and moisture. PP is a versatile, durable, and lightweight polymer with excellent corrosion resistance. The building & construction sector is a major consumer of specialty polymers. It has a wide range of well-established applications and is continually growing with new products being developed. Specialty polymers are characterized by their unique mechanical, thermal, and chemical properties. They can be used in coatings, adhesives, foams, and sealants for a wide variety of industrial applications. These specialty polymers are often processed into a variety of three-dimensional shapes by molding or melt extrusion processes. This can influence phase morphology, molecular conformations, and ultimately product performance. As the end-user industry standards become more stringent, cost-performance requirements are constantly pushing products to higher levels of durability. Increasingly, construction and industrial applications require durable polymers that are resistant to excessive weathering.With the medical industry focusing on minimally invasive procedures, the need for high-performance polymers has increased. These plastics provide enhanced functionality, durability, and load-bearing capacity in applications like surgical tools, the connections between surgical tools and mechanical arms, and the housings of surgical robots. Specialty polymers offer physical, chemical, and thermal properties that retain their performance characteristics in harsh environments. This includes resistance to corrosive chemicals, oxidation, heat, and other extreme conditions. Healthcare disinfectants used to prevent hospital-acquired infections (HAI) can significantly impact the mechanical and physical properties of medical plastics, requiring that are resistant to recurring exposure.
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