Textile fibers are primarily divided into two main categories: Natural Fibers and Man-Made (Manufactured) Fibers.
1. Natural Fibers
These fibers are obtained directly from plants, animals, or mineral sources. They are further classified based on their chemical composition.
A. Cellulosic Fibers (Plant Origin)
These fibers are composed of cellulose, a structural component of plant cell walls. They are categorized by the part of the plant from which they are extracted:
Seed Fibers: Extracted from the seed pod of the plant.
Examples: Cotton, Kapok, Coir (from coconut husk).
Bast (Stem) Fibers: Extracted from the inner bark (phloem) of the plant stem. These are typically strong and stiff.
Examples: Jute, Flax (Linen), Hemp, Ramie, Kenaf.
Leaf Fibers: Extracted from the fibrous vascular system of plant leaves.
Examples: Sisal, Abaca (Manila hemp), Pina (from pineapple leaves).
B. Protein Fibers (Animal Origin)
These fibers are composed of complex proteins and are derived from animal hair or insect secretions.
Hair / Staple Fibers: Spun from the fleece or hair of animals.
Examples: Wool (from sheep), Cashmere (from goats), Mohair (from Angora goats), Alpaca, Camel hair, Angora (from rabbits).
Secretion / Filament Fibers: Extracted from the cocoons spun by insects.
Examples: Cultivated Silk (Mulberry silk), Wild Silk (Tussar, Eri, Muga).
C. Mineral Fibers (Natural Inorganic)
These are naturally occurring inorganic minerals that can be pulled into fibrous strands.
Example: Asbestos (Historically used for fireproofing, but now largely banned due to severe health hazards).
2. Man-Made (Manufactured) Fibers
These fibers are created through industrial manufacturing processes. They are classified based on the raw materials used to produce them.
A. Regenerated Fibers (Semi-Synthetic)
These fibers are made from naturally occurring polymers (like wood pulp cellulose or plant proteins) that cannot be spun into fiber in their raw state. They are chemically dissolved and then extruded (regenerated) into continuous filaments.
Regenerated Cellulosic Fibers:
Viscose Rayon: The most common type of rayon, made from wood pulp.
Cuprammonium Rayon (Cupro): A finer, silkier rayon.
Acetate & Triacetate: Modified cellulosic fibers with a silk-like drape.
Lyocell (Tencel): A more modern, environmentally friendly regenerated fiber made using a closed-loop chemical process.
Bamboo: Often processed identically to viscose rayon, using bamboo as the cellulose source.
Regenerated Protein Fibers:
Azlon: Made from naturally occurring proteins like soy, peanuts, or milk (casein).
B. Synthetic Fibers
These fibers are synthesized entirely from chemical compounds, typically derived from petrochemicals (oil and natural gas). The polymers are entirely engineered by humans.
Polyamide: Known for high strength and elasticity.
Example: Nylon.
Polyester: Known for durability, wrinkle resistance, and low moisture absorption.
Example: PET (Polyethylene Terephthalate).
Polyacrylonitrile: Often used as a lightweight, warm substitute for wool.
Examples: Acrylic, Modacrylic.
Polyurethane: Known for exceptional, rubber-like elasticity.
Examples: Spandex, Elastane (Lycra).
Polyolefins: Very lightweight fibers often used in industrial or activewear applications.
Examples: Polypropylene, Polyethylene.
C. Inorganic / Speciality Manufactured Fibers
These are manufactured from non-carbon-based materials and are typically used for highly technical, industrial, or decorative applications rather than standard apparel.
Glass Fibers: Used for industrial insulation, fiber optics, and reinforcement (Fiberglass).
Metallic Fibers: Made from metals like aluminum, gold, or silver, often coated in plastic to prevent tarnishing (e.g., Lurex).
Carbon Fibers: Extremely strong and lightweight, used in aerospace and high-performance composites.
Ceramic Fibers: Designed to withstand extreme, high-temperature environments.
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