Question

write how polymer chemistry changed apparel Industry

Answer 1

Answer:

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Ever wonder how certain fabrics protect against the bitter cold, keep athletes cool, or stretch with you as you bend? It’s all textile chemistry!

Textile chemistry is a highly specialized field that applies the principles of chemistry to the production of textiles, such as those used in clothing, furniture, tire yarn, air bags, and much more. Textile chemists may create new products to meet specific market needs or modify existing products to become more generally marketable.Textile chemistry can be divided into three overlapping areas: dyeing and finishing chemistry, fiber and polymer chemistry, and a newer area that intersects with materials science and involves the blending of different textile materials. In the textile industry, chemists work in research and development, process development, process modification, technical services, environmental testing, and dyeing and finishing operations.

The study of textile chemistry begins with the knowledge of fibers, both natural and synthetic. Because polymeric synthetic fibers are such an important part of today's textile business, the field includes many chemists who are trained in polymer chemistry. The dyeing and finishing aspects of textile chemistry require an understanding of both organic chemistry and surface chemistry.

The interaction between textile chemistry and materials science is also increasing. Textile chemistry includes the application of the principles of surface chemistry to processes, such as dyeing and finishing. It also encompasses organic chemistry in the synthesis and formulation of the products used in these processes.

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Answer 2

Explanation:

hellomate

Ever wonder how certain fabrics protect against the bitter cold, keep athletes cool, or stretch with you as you bend? It’s all textile chemistry!

Textile chemistry is a highly specialized field that applies the principles of chemistry to the production of textiles, such as those used in clothing, furniture, tire yarn, air bags, and much more. Textile chemists may create new products to meet specific market needs or modify existing products to become more generally marketable.Textile chemistry can be divided into three overlapping areas: dyeing and finishing chemistry, fiber and polymer chemistry, and a newer area that intersects with materials science and involves the blending of different textile materials. In the textile industry, chemists work in research and development, process development, process modification, technical services, environmental testing, and dyeing and finishing operations.

The study of textile chemistry begins with the knowledge of fibers, both natural and synthetic. Because polymeric synthetic fibers are such an important part of today's textile business, the field includes many chemists who are trained in polymer chemistry. The dyeing and finishing aspects of textile chemistry require an understanding of both organic chemistry and surface chemistry.

The interaction between textile chemistry and materials science is also increasing. Textile chemistry includes the application of the principles of surface chemistry to processes, such as dyeing and finishing. It also encompasses organic chemistry in the synthesis and formulation of the products used in these processes.

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