top of page

Coats Opti’s Research and Development team has developed a unique and advanced formula, which makes the zip’s teeth and slider resistant to corrosion caused by atmospheric exposure and leather tanning chemicals. The propriety Shield finish protects the electroplated surface from chemicals and minimizes the damage caused by regular abrasion. Specially engineered chemical and mechanical properties also enhance the appearance and durability of the zips. This is combined with a superior process for forming the mechanical teeth of the zip, which enhances the run ability by lowering friction.

 

“The unique chemical and mechanical process we have specially developed means we are able to help our customers improve the durability of their products,” said Rajiv Sharma, Global CEO, Industrial, Coats. “We have developed an enhancement to one of our products that makes a direct and visible difference to the end product sold to the consumer.”

 

The range is available in a choice of shiny and matte appearance, all tape colors and three sizes. It is ideal for use in leather garments and accessories as well as stonewashed and post-dyed garments.

 

Source: Coats

Posted February 23, 2016

 

UXBRIDGE, England – Coats, one of the world’s leading industrial thread and consumer textile crafts business, is launching Opti LUX Shield, the most advanced range of corrosion-resistant zips.

 

Opti LUX Shield is being showcased at Lineapelle, the international trade fair for the leather goods sector, being held in Milan this week.

  

Metal zips used in leather goods, clothing and footwear are prone to oxidization and corrosion from exposure to the moisture in air and also through contact with chemicals contained in all leather following the tanning process it goes through. This not only detracts from the product’s appearance but can also impede the smooth running of the zip, often to the point of jamming.

Coats launches corrosion-resistant zips

  • Wix Facebook page
  • Wix Twitter page
  • Wix Google+ page
bottom of page