SHIRT MANUFACTURING PROCESS
Men’s shirt manufacturing processes, major components of shirts, types of shirts, types of pockets, types of plackets, types of cuffs, types of collars
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Men’s shirt manufacturing processes, major components of shirts, types of shirts, types of pockets, types of plackets, types of cuffs, types of collars
Even after the basic training, it is difficult for an average salesperson to come up with the exact measurements. It is here that the 3D technology proves to be a boon. The development of three-dimensional body-scanning technology has immense potential for use in the apparel industry, particularly for customization or mass customization strategies to be […]
Nanotechnology has ample potential to enhance the clothing we live, work and play in, but it is not without its drawbacks. From lightweight specialist high-endurance clothing to suits that don’t get wet in the rain, nano-enhanced clothing will become a more and more visible part of our lives in the future.
In this article technologies adopted for production preparatory process, production process and post-production process used in the garment manufacturing industry and the level of technology that is used for each process commonly used by different countries viz. India, China, Bangladesh, Vietnam, and Sri Lanka.
Of all the fibers, rayon is probably the most perplexing to consumers. It can be found in cotton-like end uses, as well as sumptuous velvets and taffetas. It may function successfully in absorbent hygiene and incontinence pads and equally well-providing strength in tire cords.
Polyester fibers, the synthetic fibers, are long-chain polymers derived from coal, air, water, and petroleum. They are formed through a chemical reaction between an acid and alcohol. Polyester is often blended with other fibers like cotton to get the best of both worlds.
USTER® HVI is used for measurement of the most important cotton fiber properties of micronaire, fiber length (UHML), uniformity, short fiber index, strength, elongation, color, trash content, and degree of maturity.
Cotton fiber is a soft staple fiber that is grown in a form known as a boll around the seeds of the cotton plant, a shrub native to tropical and subtropical regions.
The Fibre formation process includes a change in shape, structure, and properties of the thermoplastic polymer. The polymer pellets or granules are fed into an extruder where, through heating, their melting temperature is exceeded. The polymeric melt is then transported, under pressure, to the spinneret. Yarn formation methods were originally developed for spinning of natural fibers including cotton, linen, wool and silk.
Fiber is a hair-like strand of material. It is flexible and can be spun or twisted for weaving, braiding, knitting, crocheting, etc. to make desired products. Fibers can be obtained in natural form from plants and animals as well as in synthetic form. Man-made or synthetic fibers are either made up of chemicals or by processing natural fibers to create new fiber structures/properties.