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- CiCLO® Textiles
"CiClO® is an easy to implement, upstream solution for microfiber pollution unrecycled synthetic textiles "
- CiCLO®: Synthetic Fibers for Earth’s Ecosystem - Parkdale Mills
Yarns and fabrics made with CiCLO ® (pronounced sēklō, translates to cycle) fibers reduce the persistence of plastic microfibers in our oceans and plastic accumulation in landfills
- Technology - CiCLO® Textiles
Textiles made with CiCLO® fibers look and feel like regular synthetics and can be engineered with high performance characteristics and finishes Fibers, yarns and finished fabrics have been fatigue tested to ensure traits such as tenacity, pilling resistance and wicking are unchanged
- How it works - CiCLO® Technology
CiCLO ® technology is added to polyester and nylon during the melt extrusion process, creating countless biodegradable spots (also known as “nucleation spots”) that are permanently embedded throughout the matrix of the plastic
- Ciclo Cafe Vancouver | Italian-Inspired Coffee Pastries
Experience the essence of Italy in Vancouver at Ciclo Cafe, where artisanal coffee meets freshly baked pastries Located in Per Se Social Corner, enjoy locally roasted coffee and handcrafted treats
- CiCLO® Fibers - Cotswold Apparel
CiCLO® fibers, yarns and textiles are proven effective over the course of several years through reliable scientific data gathered from third party laboratory studies determining the rate and extent of biodegradation in simulated environments; including sea water, landfill, wastewater treatment plants and soil
- CiCLO Biodegrades Polyester and Nylon in a Few Years - Waste 360
CiCLO is a mix of ingredients that are blended with recycled or virgin polyester and nylon to make pellets sold to fiber and yarn suppliers who in turn sell CiCLO-made material to brands and
- Design HMI | CiCLO® Biodegradable Textile Ingredients
CiCLO® technology, a patented sustainable textile ingredient, is a beacon of hope for our environment It’s added to recycled or virgin polyester and nylon during melt extrusion, creating biodegradable spots in the polymer matrix
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