Technology, before the word was hijacked by the computer community in the 1970s, was defined as the science of the useful arts. This definition is particularly relevant to what this book is about. In the past, the education of textile technologists tended to be process oriented. The technologist today is better prepared for the textile and related industries by being product oriented and by being more able to work closely with and facilitate the ideas of designers. Designers use elements like color, shape, form, silhouette, fabric, and so on combined with principles such as harmony, rhythm, symmetry, balance, to create new and exciting products (garments, fabrics, yarns, fibers, etc.) for the market. In this book, we will learn about different product types as perceived and understood by the design technologist.

Fibers are the fundamental building blocks of all products defined as a textile, regardless of application or construction. Fibers come in various forms and guises, which can have an impact on the performance, aesthetics, handle of a textile material. Natural fibers were used for millennia to create garments and tools that contributed to the expansion and development of humanity. More recently, science and industry has created a series of fibers and filaments derived from man-made polymeric material through chemical and extrusion processing, most notably nylon and polyester. This chapter will introduce the most common textile fibers from both natural and synthetic sources along with the properties of such fiber and filaments. Providing a comprehensive list of the subtle relationships between form and function for each fiber is beyond the scope of the text, but it should provide an overview of the fundamentals. This will enable the reader to assess critically how fiber type will impact on the properties of the final fabric. It is essential that the reader appreciates that appropriate selection of fiber is of fundamental importance when considering a desired design, application, or visual effect. To this end, the influence of fiber type, form, shape, diameter, and finish on properties and design is appraised by considering the major fiber types, the common production route, and how the manufacture can influence the types of yarns and fabrics available. The economic and societal implications are also of importance with the volumes, costs, and environmental impact of each class of fiber being considered.

A fiber is simply considered to be a linear strand with flexibility and a length many times its width. This differentiates it from other assemblies such as tapes, films, and rods. For the designer, fibers and filaments could be considered the smallest element in a textile construction. The properties of a fiber will determine how it appears, how it drapes, how it conforms, and how it stretches. The designer should be aware that there is a full gamut of aesthetic finishes that can be generated by variation of this simple element.

Whether staple or filament, natural or synthetic, the fundamental principles of physics apply to each fiber type. These properties are determined by the dimensions and molecular structure of the fiber. Fibers are constructed from long chains of atoms known as polymers. These structures can be formed naturally (cellulose, keratin, collagen, asbestos) or may be formed through synthetic chemical processing (polyethylene, nylon, polyester). Regardle...