Non-woven materials are engineered fabrics formed by bonding or entangling fibers rather than weaving or knitting them, which makes them fast to produce and...
Nonwoven fabrics underpin essential products in hygiene, healthcare, filtration, mobility, and construction. Unlike woven or knitted structures, these engineered webs are formed directly from...
Finishing and functionalization make textiles perform better, last longer, and feel more pleasant in use. From classic chemical routes to surface physics and bio-based...
Textile printing blends chemistry, color science, and machinery to place precise designs on fabrics at scale. From classic screens to fully digital workflows, each...
Dyeing turns plain textiles into expressive materials by joining colorants with fibers in reliable, repeatable ways. From yarn packages to open width fabrics, practitioners...
Textile pre-treatment sets the stage for consistent colour, durable performance, and a clean fabric surface that accepts chemicals evenly. Before dyeing and finishing, mills...
Knitting has evolved from simple hand techniques into a digitally guided ecosystem that balances creativity, speed, and precision. Industrial and fashion designers rely on...
Weaving turns yarn into fabric by interlacing warp threads with weft in planned patterns, from simple plain cloth to engineered textiles for aerospace. Behind...
Polymer fiber spinning bridges chemistry, heat and flow to transform polymer feedstock into continuous filaments that deliver strength, flexibility and function. It is a...