All Posts By

Venlexxah Mengenrayzz

Fashion

Welcome to the fabric of the future

Welcome to the fabric of the future.

  Copper infused polyester fiber 

If you ever read the benefits of drinking out of a copper mug imagine wearing it. The benefits of the compression include pain relief, muscle healing, and improved blood flow, while decreasing inflammation and swelling.

The qualifying points of metal-infused fabric is the internal production of electro-less on different types of fabric materials. The line has the possibility of covering every single fiber with a coating such as copper which is stable against corrosion and has a good shielding value.

 Currently the available fabrics and materials of different types are coated in metal. The line permits the values of electrical conductivity from 100 millioms squared and up, to be obtained.

Materials

Standard fabrics are static clean,  polyester that have weights that range from 60 to 150 grams per square metre after being metal coated. The proportion of pure nickel varies from 12 to 35 grams of metal per square metric.

These fabrics behave differently when exposed to electromagnetic fields and are characterised. In addition, compared  to competitive products, by the following advantageous reasons:

  • High resistance to corrosion due to the lack of copper
  • Stability of the superficial resistance value
  • Resistance of conductivity even under repeated mechanical or abrasive action and repeated bending.
  • Good shielding from low magnetic field frequencies and from those of up to 18 Ghz
  • Good mechanical resistance to traction and tearing.

This being premised, the fabrics that are metallised may not only be polyester but also of  CARBON fiber, nomex, kevlar and polyamides. These fabrics have been tested to evaluate their different properties such as electromagnetic shielding, their bending in relationship to their endurance; these tests as per precise regulations are available.

Presently we are working on the evolution of deposition of other metals on fabric structures, such as SnO MgO e TiO2.

Applications

The evolution of fabrics as structures and of the fibres that make up their electrical and mechanical performance give hope for an evolution of products beyond those already known stylish Copper Wear. We often don’t think about the science behind our clothing. In this article I give a clear description about a material not often used in clothing.

Fashion

FUTURE WOMAN IN FASHION

NETERAL MAGAZINE

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INTRODUCTION

WOMAN OF THE FUTURE

FASHION MEETS THE FUTURE.

WHAT CAN WE EXPECT IN FASHION IN THE FUTURE.

EASY GOING TO THE EYES OR A BOLD STATEMENT?  WOMAN OF THE FUTURE ARE NOT AFRAID TO STAND OUT WITH BOLD BRIGHT COLORS FOR ALL FOUR SEASON.

FABRIC AND FIBERS

NATURAL AND SYNTHETIC FIBERS

NATURAL

COTTON grows in warm climates and most of the world’s cotton is grown in the U.S., Uzbekistan, the People’s Republic of China and India. Other leading cotton-growing countries are Brazil, Pakistan and Turkey. 

SILK The protein fiber of silk is composed mainly of fibroin and is produced by certain insect larvae to form cocoons. The best-known silk is obtained from the cocoons of the larvae of the mulberry silkworm Bombyx mori reared in captivity.

HEMP   fabric is made from the long strands of fibre that make up the stalk of the plant. These fibres are separated from the bark through a process called “retting.” These fibres are then spun together to produce a continuous thread that can be woven into a fabric.

CASHMERE  Both the soft undercoat and the guard hairs may be used; the softer hair is reserved for textiles, while the coarse guard hair is used for brushes and other non-apparel purposes.

SYNTHETIC

POLYESTER  is a generalised term for any fabric or textile, which is made using polyester yarns or fibres. It is a shortened name for a synthetic, man-made polymer, which, as a specific material, is most commonly referred to as a type called polyethylene terephthalate (PET). It is made by mixing ethylene glycol and terephthalic acid. That all sounds extremely scientific, but basically, polyester is a kind of plastic.

NYLON Nylon is a generic designation for a family of synthetic polymers, based on aliphatic or semi-aromatic polyamides. Nylon is a thermoplastic silky material  that can be melt-processed into fibers, films, or shapes.  It is made of repeating units linked by amide links similar to the peptide bonds in proteins. Nylon polymers can be mixed with a wide variety of additives to achieve many different property variations. Nylon polymers have found significant commercial applications in fabric and fibers.

SPANDEX Man-made fibers are gaining popularity compared to the natural fibres in recent times. One of them is the spandex fiber which has captured the garment industry. Spandex is a lightweight, soft smooth synthetic fiber which has a unique elasticity. Due to its elastic property, it is used in making stretchable clothing. It is also known as ‘elastane’ in Europe and many other parts of the world.  

RAYON  is a semi-synthetic fiber made from reconstituted wood pulp. Even though rayon is made from plant fibers, it is considered semi-synthetic because of the chemicals, like sodium hydroxide and carbon disulfide, used in the production process. Rayon can be an imitation form of silk, wool, and other fabrics, and examples of rayon include modal, viscose, and lyocell.

 A VARIATION OF FABRIC WILL BE — USED TO PRODUCE FUTURISTIC GARMENTS 

COPPER INF– USED FABRIC WILL BE TRENDY IN THE FUTURE SUCH AS SPORTSWEAR, ACTIVEWEAR, UNDERWEAR

FORWARD INTO THE FUTURE

THE FUTURE WOMAN WILL BE WEARING A MODERN CONTEMPORARY FUTURISTIC DESIGN AND LOOK TO YOUR WARDROBE THAT MATCHES YOUR LIFESTYLE SOPHISTICATED ELEGANCE, SPORTY, CASUAL

ACCESSORIES

 BANGLES ,EARRINGS SUNGLASSES , HANDBAGS ETC