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What is Polyester and Polyester Fabric Used For?

Polyester, a thermoplastic polymer, can be made into a wide variety of products including food containers, disposable bottles and polyester fibers. The fibers can then be spun into different shapes, thicknesses and lengths and knit or woven into a wide variety of polyester fabrics

SAYA factory with rolls of spun recycled polyester
SAYA factory with rolls of spun recycled polyester

First popularized as a miracle fabric when it was introduced to the public by DuPont in the 1940s, fabrics made of polyester fiber need no ironing, never wrinkle, hold up well in the wash and the price is reasonable. For those reasons it is still used in a wide variety of apparel, including uniforms, activewear, undergarments and sleepwear.

Because of its high tensile strength polyester fiber is also utilized in home furnishings such as bedding, carpet and curtains as well as ropes, sails and thread. It can be used for insulation by manufacturing hollow fibers such as Primaloft.

Sails are often made of durable polyester fiber
Sails are often made of durable polyester fiber

Hydrophobic (moisture repelling) in nature and quick drying, it caught the attention of outdoorsman and entrepreneur, Yvon Chouinard, who in 1981 introduced the first-generation of fleece, called Synchilla, under the brand name Patagonia. Polyester proved to retain its shape and was easily washed and dried so it was perfect for active apparel. Within a decade it was being used widely in sports and outdoor clothing. 

Outdoor brands have proliferated the types of fabric made with polyester coming up with new patents for unique polyester compounds and fabrications including Patagonia’s Capilene® used in baselayers, Polartec’s PowerDry® and PowerStretch® moisture wicking layers and Cordura® abrasion resistant pack and apparel fabrics.

Athletic apparel made out of performance recycled polyester
Athletic apparel made out of performance recycled polyester

Recently with an eye on sustainability more and more brands are mixing virgin polyester with recycled polyester or going with 100% recycled content to minimize dependence on petroleum and reduce CO2 emissions.

To share your thoughts on the many uses of recycled polyester or to learn more about SAYA fiber, please contact us at change@sayarenew.com

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What is Recycled Polyester and Why Should We Use It? – SAYA

What is Recycled Polyester and Why Should We Use It?

These days we are likely to see recycled polyester as a component in everything from furniture to apparel to kitchen gadgets. So exactly what is recycled polyester?

PET flakes ready for recycling
PET flakes ready for recycling

First let’s define what is polyester. Invented in the 1940’s, polyester is a synthetic (man-made) fiber that is composed of polyethylene terephthalate, or PET and made primarily from petroleum. Most commonly extracted from the earth via drilled wells, petroleum is then refined by heating the crude substance to its boiling point to separate the many compounds, including PET. 

Petroleum drilling
Petroleum drilling

Polyester fiber, when woven or knit into fabric, is lightweight, quick drying, easy care, soft to the touch, yet durable and performance enhancements such as stretch and antimicrobial protection can be readily added. 

However, both the extraction and the refinement of petroleum have been identified as disruptive to Earth’s natural ecosystem. Petroleum is a limited resource and remaining reserves are often located under fragile ecosystems such as Alaska’s Arctic National Wildlife Refuge, which has recently been in the news. In addition, the gasses emitted during the petroleum refining process are a significant source of pollution and have detrimental effects on humans, animals, vegetation, water bodies and the atmosphere. We knew none of these negative consequences back in the 40s when PET was first introduced and since then entrepreneurs have found plenty of ways to use polyester to improve everything from outdoor gear to packaging.

Like traditional or “virgin” polyester, recycled polyester is made of polyethylene terephthalate (PET). However, instead of utilizing raw petroleum to make fiber, recycled polyester is made of existing polyester products including plastic bottles. In 1993, Patagonia was the first apparel manufacturer to use recycled plastic bottles in their fleece garments.

Early Patagonia recycled PET fleece jacket
Early Patagonia recycled PET fleece jacket

Now almost 30 years later recycle PET from plastic bottles has become a commodity, which has inspired innovative manufactures to look into other sources for recycled PET. Recent technology has enabled the recycling of polyester cutting scraps left over from the manufacturing process and excess polyester yardage that never made it into a garment. What’s next? The textile and garment industries are aiming at full circularity, where worn polyester garments can be fully recycled and returned to the fiber level to become new garments.

Fabric scrap being prepared for recycling
Fabric scrap being prepared for recycling

To share your thoughts on recycled polyester or to learn more about SAYA fiber, please contact us at change@sayarenew.com

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Stopping the Flow

TEXTILE INSIGHT | Emily Walzer – Coastal Efforts Escalate Scalable, Sustainable Solutions to Ocean-Bound Plastic Waste.

Stopping the Flow

Tons of plastic end up in the sea every year and hundreds of thousands of pieces of plastic waste now float in every area of the oceans. Coastal regions are major contributors to this problem; According to recent statistics, 80 percent of ocean plastics originate from these locales.

Textile suppliers are stepping up efforts around this environmental issue with programs focused on infrastructure investment and collaborative initiatives along shorelines. The latest developments focus on creating supply chains that can support eco-responsible production of high-performing textiles made from ocean-bound plastic waste. Increasingly comprehensive in scope, new initiatives involve coordinating with established grassroots organizations to move the needle in terms of demand, quality and transparency around manufacture of recycled ocean plastics captured in high-risk coastal locations.

“Our focus for this enterprise-level project is something sustainable, a business that allows our mission to grow and grow and grow and do good,” explains Ed Rubin, Gore project champion, regarding Gore’s equity investment in Bionic to help streamline its fiber supply chain and grow its Costa Rica operation.

Similarly, Nan Ya Plastics, with its SAYA Coastal offering under the SAYA brand, and Unifi through its REPREVE Our Ocean program, are committed to stopping the flow of plastics into the sea. Launched in June 2019, Repreve Our Ocean is seeing really strong interest, according to Unifi, while Nan Ya reports large scale investment with plans to expand its global network.

While ocean plastics recycling is certainly a compelling story, textile firms are creating compelling solutions. Here’s how Saya, Gore and Unifi are leading the way.


Saya Coastal – Turning microplastics into microfibers

Currently, SAYA collects PET bottles from four zones in Thailand: Zone 1: Pattaya Beach; Zone 2: Pattaya Central Beach; Zone 3: Chanthaburi and Trat; Zone 4: South of Thailand. SAYA works with OceanCycle’s network of certified coastal recyclers, to collect the bottles from these zones with a collecting range that is 20 kilometers from the coastline. Cooperation with local partners includes collecting, washing and making PET flakes. SAYA has provided each partner with Nan Ya’s  proprietary technology and equipment to convert the flakes into chips for streamlined efficiency. Then SAYA collects the chips or flakes and redistributes them to mill partners to produce SAYA Coastal fibers.

According to the company, each SAYA chip converting system costs about $3M USD, for a total of  $12M USD.  

SAYA holds the key technology in converting collected PET bottles to performance chips and fiber and is currently seeking partnerships around the world to implement these technologies and facilities in strategic coastal cities and beaches to join the SAYA recycling network.

“We believe there will be increased demand for recycled fiber from the U.S. and we are looking into adding the technology to our South Carolina factory which could also incorporate coastal recycling,” company SVP, S.Y Huang.

Read article at: https://www.formula4media.com/articles/stopping-the-flow

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SAYA Turns Deadstock Into High-Tech Fiber

While turning plastic bottles into performance fibers is a well-practiced and planet-friendly manufacturing process, one textile manufacturer in that eco-sphere has more to offer when it comes to sustainability. Textile giant SAYA is converting scraps, overruns and leftover fabric (deadstock) into recycled fibers to pave the way to a greener planet.

Nan Ya Plastics, SAYA’s parent company, is one of the world’s largest recycled PET manufacturers, repurposing over 75 billion plastic bottles annually. Under the brand SAYA, research and development efforts continue to focus on recycling and sustainability that face the textile and garment industry redefining what’s possible in renewal.

SAYA’s RSCUW technology, shown at October’s Taipei Innovative Textile Application Show, turns a companies deadstock into recycled fibers for mills to weave into fabrics that carry a high tensile strength for dyeing accuracy and whiteness.

SGB Executive interviewed its Senior Vice President, S.Y. Huang, for a closer look at bringing new life to discarded textiles.

SAYA Turns Deadstock Into High-Tech Fiber

What is deadstock, and why is it important to repurpose? Deadstock is the garment industry’s most extensive area of hidden waste: overstock fabrics. These are generally referred to as leftover fabrics, accounting for up to 25 percent of a manufacturer’s annual waste. Most overstock fabrics have been downcycled in the past, ending up in landfills or incinerators as there are no commercially effective methods to recycle them. They create millions of yards of our industry’s unaccountable waste. We’re committed to finding a solution.

What is SAYA’s process for collecting, converting and weaving extruded fiber from deadstock into new greige goods? First, we recycle and collect, working with key brand partners to recover and recycle deadstock and cutting scrap from their mills and garment factories in Taiwan. We plan to expand to America, China and Vietnam. For renewing and converting, we use our Mixed Waste Stream Recycling technology. The input stream of sources is complex, requiring our engineering team to innovate proprietary methods of sorting and cleaning and mechanical and chemical recycling.

The recycling process combines shredding the fabrics into chips, mixing them up with fragments of other waste, spinning, texturing, weaving, and dyeing the newly created fibers. For the extruding and weaving process, the brands, manufacturing partnerships and support are essential. They weave or knit SAYA fiber into fabric or anything they can reuse.

Can you weave non-recycled technical fibers into recycled yarns during the conversion process? Yes. It is a common practice to achieve the desired end product. Our in-house functional fiber lineup includes stretch, antibacterial, microfiber, and more. These can also be further twisted with Aramid or Kevlar-type fibers to enhance additional properties as needed.

In the conversion process, can the yarns be treated for technical application? Yes. We offer various technical applications to both SAYA 365, our recycled bottle program, and our RSCUW, which includes protected color (Chromuch solution-dyed fiber), stretch, antibacterial, and microfibers.

Do you treat the recycled fibers in-house or by a third-party? We are one of the largest, fully vertical integrated fiber manufacturers in Asia. We rely on our GRS- and OceanCycle-certified third-party partners worldwide for collection in the bottle recycling process. For deadstock, overstock or cutting scrap, we’re building a team of in-house logistical systems to handle the collection and sorting, including proprietary artificial intelligence and machine-learning machinery. The renew/convert process is our core business and competence. We do this in-house. The results are performance fibers that are ready for weaving and dyeing.

What outdoor companies are using SAYA fabrics made from deadstock? We’re a fiber manufacturer, producing yarn for fabric mills to weave or knit into fabric. We work with top sports and outdoor sports brands in the industry on deadstock, offcut and post-consumer garment recycling. One such brand is Asics. Due to NDAs, we can’t disclose other brand names at the moment. But we do welcome leading brands to start the development conversation with us. We’re happy to assist in this transition and education.

In using recycled deadstock, are designers more thoughtful about the design process? Using renewed deadstock or offcut recycled resources requires dedication and commitment. While the performance and usability of the fibers are almost identical to conventional virgin or recycled PET bottle fibers, there are a few challenges. One is lead-time. Resources are not as readily available as new petroleum-based synthetics and dependent on condition, logistics and supply factors. Then comes the cost. Reclaiming and re-processing offcuts and deadstock require more handling, logistics and processing costs — similar to the recycled PET bottle market a decade ago. But with the right market strategy and support, eventually, we can drive the cost down to near neutral. The third issue is knowledge and education. Consumers and brands are new to deadstock and the offcut renewal concept. This requires dedicated education through the media, products and market, internally and externally. And, finally, designers need to think about the product’s recyclability by design. By implementing the right trims, zippers and buckles, designers can help make their products more sustainable and recycler friendly.

What is the longevity of a garment made from deadstock? Do you have statistics on how your conversion process saves the environment? Our fibers’ lifecycle is as long as any new virgin fiber, thanks to our proprietary process of sorting and cleaning and mechanically and chemically recycling. As for helping the environment, our studies show that SAYA fiber compared to virgin fiber can save around 68 percent to 77 percent of the CO2 produced in manufacturing a garment. We’ve solved one of the most critical sustainability issues in the textile industry and want to redefine what’s possible in renewal. And consumers want to support brands with similar values.

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How do Recycled and Recyclable Differ?

How do Recycled and Recyclable Differ?
The international recycling symbol indicated if a material is recyclable or recycled.

How do Recycled and Recyclable Differ?

Recycling is the process of collecting and processing materials that would otherwise be thrown away as trash and turning them into new products which then have recycled content. If a material is recyclable, it can reacquire the properties it had in its virgin or original state. Circularity in manufacturing can be achieved when recyclable materials are in fact recycled. More manufacturers are planning ahead at the conceptual stage of product development to educating the consumer on how to properly dispose of the product for recycling and to make the recycling process as simple as possible.

All sorts of goods can be recycled — the most commonly recycled materials include paper, glass, and various types of plastic. There are many ways to recycle goods as well. Plastic drink bottles are commonly made of Polyethylene terephthalate or PET which can be recycled back into bottles or other end products. This can be done by either mechanical or chemical methods.

Mechanical recycling of plastic or PET transforms the material back into raw materials without changing the base molecular structure of the material. For example, after sorting and processing, plastic is shredded and then melted down and then re-extruded into plastic pellets. These pellets are then used in new polyester fibers or other products. No chemicals are used in this method and it is the simplest form of recycling plastic.

Mechanical recycling is the most affordable and widely used PET recycling process, however after multiple times through the process the strength and structure of the plastic becomes deteriorated.

Chemical recycling of plastics, also called advanced recycling, takes plastic waste and reduces it back to its original molecular form, which is raw petroleum. This PET can then go back into manufacturing system and eventually be processed into entirely new polyester fiber or plastic items.

Although chemical recycling is more expensive than mechanical recycling of plastic, the raw petroleum is not degraded and could be used and recycled again and again feeding an “infinite” recycling system.

To share your thoughts on recycled PET or to learn more about SAYA fiber, please contact us at change@sayarenew.com

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What is Mechanical Recycling?

Plastic flakes formed by shredding recycled plastic bottles, part of the process of mechanical recycling of plastics.
Plastic flakes formed by shredding recycled plastic bottles, part of the process of mechanical recycling of plastics.

Mechanical Recycling of Plastics: Simple Way to Recycle Plastic

Mechanical recycling of plastic transforms materials into “new” secondary raw materials without changing the base molecular structure of the material. For example, after sorting and processing, plastic is shredded and then melted down and then re-extruded into plastic pellets. These pellets are then used in new polyester fibers or other products. No chemicals are used in this method and it is the simplest form of recycling plastic.

Recycling Process

The first step in the mechanical recycling process is collecting the used plastic and delivering it to a recycling center so it does not end up in a landfill, on the roadside or tossed in the natural environment. Households and businesses can get the cycle started by providing separate bins for garbage and recycling and making sure the recycling is not contaminated by garbage. Plastic containers should be rinsed before they are thrown in the bin, but paper labels do not need to be removed. Lids should be removed and thrown in the garbage.

The next step takes place at a recycling center.  Optical scanners are used to identify different types of plastic resin, which are categorized by number, and plastics are sorted and separated from each other and other materials such as paper and glass. The used #1 and #2 plastic bottles and containers are then crushed (where caps are removed if any are remaining) and baled to be sent to a plastic recycling center.

Sorting plastic bottles for recycling PET
A worker sorts plastic PET bottles for recycling

Recyclers then shred the plastic into flakes, which are washed, rinsed and dried. The clean flakes are then melted into pellets. Manufacturers then use the pellets to make new plastic bottles, or other items. Or fiber producers, including SAYA, will melt and spin the pellets to make fiber which is then knit or woven into fabric for apparel, luggage or industrial uses.

To share your thoughts on recycled plastic or to learn more about SAYA fiber, please contact us at change@sayarenew.com

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Chemical Recycling of Plastics

Chemical Recycling of plastics in a laboratory
Chemical Recycling of plastics

Chemical Recycling of Plastics: Advanced Recycling Technology

Chemical recycling of plastics, also called advanced recycling, is taking plastic waste and reducing it back to its original molecular form, which is raw petroleum. This PET can then go back into manufacturing system and eventually be processed into entirely new polyester fiber or plastic items.

Although chemical recycling is more expensive than mechanical recycling of plastic, the raw petroleum is not degraded and could be used and recycled again and again feeding an “infinite” recycling system.

Chemical Recycling Process

Chemical recycling is accomplished by dissolving the plastic with enzymes or chemicals or using heat to break down plastics into their original components.

Chemical recycling is used with plastics which are difficult to sort and process mechanically. It is also used to recycle plastics in food contact applications and packaging. The processes used in advanced recycling of used plastics either using chemicals or thermal processes takes place in the absence of oxygen so emissions from advanced recycling are generally considered very low.

New Technologies in Chemical Recycling

Currently, there are a number of ongoing projects in the plastics and recycling industries to make advanced recycling more widespread. Two processes which are being refined for wider use are Pyrolysis and Gasification.

Pyrolysis, turns plastics which are recovered from solid waste (garbage) into a synthetic crude oil that can be refined into diesel fuel, gasoline, heating oil or waxes. Using pyrolysis to convert plastics into fuel reduces greenhouse gas emissions by 14% and water consumption by 58%, and it saves up to 96% in traditional energy use as opposed to refining conventional crude oil.

Gasification turns materials recovered from solid waste (garbage) into a synthesis gas, or “syngas,” which can be used for electric power generation or converted into fuel or ethanol and methanol. It can also also be used to make new plastics that go into consumer products.

To share your thoughts on recycled plastic or to learn more about SAYA fiber, please contact us at change@sayarenew.com

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SUSTON: Achieving Sustainability with Synthetic Fibers

SUSTON: Achieving Sustainability with Synthetic Fibers

One of the most eco-certified recycled synthetic fibers on the planet, Chromuch, is the sustainable fiber the performance and outdoor industries have been looking for.

If one were to summarize the textile industry’s environmental footprint in a nutshell, it all comes down to waste: wasteful resource extraction, wasteful production, and a wasteful use and disposal stage. Fortunately, there are solutions at every stage just waiting to be implemented.

100% post-consumer recycled

Polyester has performance and durability qualities that are hard to beat. But considering the sheer amounts of polyester waste currently being generated and the relative ease of recycling it, using virgin polyester hardly makes sense. Recycled polyester, on the other hand, effectively kills two birds with one stone: it reduces the need for raw resource extraction while mitigating waste stream impacts. Chromuch fibers are made entirely of recycled post-consumer PET bottles, whereby every kilogram of Chromuch fiber uses 77 plastic bottles that would otherwise end up in landfills and seas. At end of life, Chromuch is working to offer fully-recyclable fabrics that can be returned to the recycled input stream from which it came.

100% water-free production

When it comes to resources, none are more precious than water. But judging by the textiles industry’s water consumption and pollution, one could be forgiven for thinking this resource was in endless supply. Of course, the opposite is true: Just 1% of our planet’s water is unfrozen fresh water, a quantity that needs to satisfy both human and land animal thirsts. Chromuch provides a solution to the industry’s unsustainable consumption of water by using absolutely no water at all. Employing a water-free solution dyeing process, Chromuch saves 3 gallons of fresh water per yard of fabric.

Fully certified

Recycled, waterless, durable and recyclable – Chromuch claims to be one of the most sustainable synthetic fibers out there, offering a cradle-to-cradle solution at each stage of the product cycle. But one needn’t take their word for it. With certifications like Global Recycled Standard 4.0, Bluesign Approved, Higg Index Certified, Oeko Tex, ISO-14001 and ISO-9001, Chromuch’s credentials can speak for themselves.

CHROMSHIELD™ TECHNOLOGY

If you placed a Chromuch fiber under a microscope, you’d find a colored fiber core. This is where the primary color ‘lives’ so to speak, but next comes the ‘shield’ – a solution dyed protective wrap that provides yet another layer of magnified color vibrancy, superior colorfastness, and the possibility to add a layer of performance functionality into the yarn such as UV, fire-retardant, quick-dry, cooling, heat retention, anti-static and antibacterial protection. The result is a premium, recycled polyester yarn that offers longer lasting, more intense colors and enhanced performance features for apparel and equipment.

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SAYA Recycles Fabric Scrap & Overstock into Performance Fiber

Taipei, Taiwan (October 20, 2020) – SAYA, a new name in recycled fiber, made its live debut last week at the Taipei Innovative Textile Application Show (TITAS), which has become the most innovative textile exhibition in Asia. This year’s TITAS showcased Sustainable Textiles which reduce resource usage and optimize manufacturing efficiency by adopting eco-friendly materials and processes. SAYA’s Rscuw, fibers made of recycled cutting scrap and overstock yardage, was featured at the show in the brand’s film (SAYA Rscuw launch video), which depicts the motivation behind finding new sources of materials to be recycled and the process developed by SAYA engineers. 

SAYA Recycles Fabric Scrap & Overstock into Performance Fiber
SAYA Recycles Fabric Scrap & Overstock into Performance Fiber

SAYA at TITAS, Taipei, Taiwan

“We have the experience, knowledge and equipment to make change,” said S.Y. Huang, Senior Vice President of Nan Ya Plastics, SAYA’s parent company, and the world’s largest manufacturer of recycled PET repurposing over 75 billion bottles every year. “Under the new brand, SAYA, we’ve been able to put our resources toward solving one of the most critical sustainability issues in the textile industry — recycling discarded fabric scrap and unused yardage. We want to take responsibility and redefine what’s possible in renewal.”

SAYA Rscuw is recycled polyester fiber from cutting scrap that is bleached and dyeable to whatever vibrant color the brand chooses. It is available in ultrafine microfiber filaments and can be enhanced with performance applications such as stretch, color protection, quick-dry, or anti-bacterial.

At this time SAYA Rscuw is limited to 100% polyester fabric cutting scraps without coating nor finishes. Continued research is increasing the percentage of overstock waste and types of coatings and finishings for a more inclusive solution.

SAYA also offers Rscuw Raw, which is mechanically recycled cutting scrap and yardage without the chemical treatment. The resulting fiber retains a tint of original yardage color which shows up in knit or woven fabric as a unique heathered effect in shades from grey to copper. Without the bleaching and redyeing, the process to manufacture Rscuw Raw is more energy efficient and the carbon footprint is further reduced. 

SAYA Rscuw and Rscuw Raw are available now for fabric production, and consumer brands are encouraged to specify their unique requirements in denier, performance treatments and color. Inquiries should be sent to change@SAYArenew.com.

Read full release:

https://www.snewsnet.com/press-release/saya-recycles-fabric-scrap-overstock-into-performance-fiber

https://www.fibre2fashion.com/news/textile-news/saya-introduces-recycled-scrap-at-titas-270498-newsdetails.htm

https://www.fabriclink.com/news/NewsRelease-Detail.cfm?NewsID=1674

https://furninfo.com/furniture-industry-news/12403

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Taking polyester recycling beyond bottles – SAYA Rscuw

Taking polyester recycling beyond bottles - SAYA Rscuw

Discerning consumers have come to expect at least some percentage of recycled content in the apparel or gear they purchase, and they readily show their support of their favorite sustainable brands with their wallets. Designers have upped their standards as well, wanting recycled content to include performance enhancements including antimicrobial treatments, stretch and more vibrant color. As a result, manufacturers are finding recycled PET has become a commodity.

This shift in the market demand, along with a desire to lend their expertise and raise the bar toward a more sustainable textile industry, is what inspired SAYA. A new name in polyester fiber, SAYA began to investigate alternate sources to create recycled PET. The Taiwan based manufacturer, which operates under Nan Ya Plastics Corp, a leader in the renewal fiber industry, did not need to look far. Forgotten and hidden away in warehouses across the globe are millions of yards of overstock fabric, estimated to be 15% of the fabric produced annually. In addition, cutting scrap, an inevitable part of garment manufacturing, results in up to 25% wastage per yard. In the past most of these scraps were downcycled and ended up in landfills or incinerators as there are no commercially effective methods of recycling them. Together overstock fabric and cutting scrap result in a huge amount of industrial waste, which can’t be ignored any longer.

SAYA’s engineering team, committed to finding a solution, developed a proprietary method to sort, clean and both mechanically and chemically recycle this leftover waste into new polyester fiber. Removing colors, pigments and finishings from fabrics is a difficult task and previous technology has been extremely expensive and price prohibitive. SAYA’s team was able to make this commercially available and affordable.

The result is SAYA RSCUW, a recycled polyester fiber from cutting scrap that is bleached and dyeable to whatever vibrant color the brand chooses. SAYA RSCUW can be enhanced with performance treatments to provide stretch, color protection and it is available in ultrafine microfiber filaments.

Taking polyester recycling beyond bottles - SAYA Rscuw

At this time SAYA RSCUW is limited to 100% polyester fabric cutting scraps without coating nor finishes. Continued research is increasing the percentage of overstock waste and types of coatings and finishings for a more inclusive solution.

An interesting result of skipping the chemical treatment in the recycling process is RSCUW RAW, which retains a tint of original yardage color. Without the bleaching and re-dyeing, the process to manufacture RSCUW RAW is more energy efficient and the carbon footprint is further reduced. The resulting knit or woven fabric has a unique heathered effect in shades from grey to copper.

Read article:

https://www.textileinsightextra.com/sponsored/taking-polyester-recycling-beyond-bottles-saya-rscuw.html