Ingeo

Fibres PLA fibre applications include apparel, bedding, carpet, furnishings, personal care, nonwovens and industrial textiles. NatureWorks has built up more than 85 leading brand owners, textile manufacturers and lifestyle partners to develop and market products under their Ingeo brand. 

NatureWorks currently offers two biodegradable polymer brands for packaging and fibre applications. NatureWorks PLA is used for manufacture of food packaging and serviceware. Ingeo PLA is used for manufacture of nonwoven textile fibres. 

Toray is initially developing INGEO fibre products for industrial and daily use such as carpets, bedding and industrial materials. Ultimately, Toray plans to develop the fibre to a broad range of applications including clothing and interior decoration materials. 

Figure 10.9. Comparison of the impacts on climate change and non-renewable resources of Ingeo PLA fibers from Nature works and recycled PET [NAT]...

Polyester fibre now commands 50% of the global fibres market and its share will keep growing. Eco-sustainable polyester yam produced from post-consumer recycled PET bottles is already used for a wide range of applications in sportswear as are fibres made using bio-polymer Ingeo PEA bio-polymer. 

Inc., and Teijin Ltd., which is known as Ingeo in the USA and Biofront in Japan. Another company, Purac, also produces biomedical application-oriented PLA-based materials under the PURASORB brand name. Figure 8.1 shows the synthesis, recycUng, and degradation of PLLA [13]. However, due to the recent initiation of the production of biobased polyethylene (PE) from bio-ethanol, PLLA is not the sole mass-produced biobased polymer. To forestall biobased PE and other biobased polymers that will be produced in the near future, high performance PLA-based materials must be developed to suppress their hydrolytic/thermal degradabiUty and increase their mechanical performance. 

Notes Ingeo Datasheet (Natureworks). "(JSKIa Datasheet (Mitsubishi (HDT) is determined by the test procedure according to ASTM D648. 

Poly(lactic acid) (PLA) offers 100% bio-based carbon content for a zero material carbon footprint and both compostability and recycling as viable end-of-life options. NatureWorks LLC (a Cargill subsidiary) manufactures 140 000 tons/year of PLA under the trade name Ingeo for packaging and industrial applications (see www.natureworksllc.com, accessed 23 June 2013). 

NatureWorks (2009) NatureWorks accesses second Ingeo M manufacturing location. NatureWorks news release, 12 March 2009... 

NatureWorks (2007) Technology Focus Report Toughened PLA, http //www.natureworksllc.com/product-and-applications/ingeo-hiopolymer/technical-publications/Wmedia/Files/Toughened-PLA-Technology-Focus-pdf.ashx (accessed 15 September 2010). 

Vink ETH, Rabago KR, Glassner DA, Springs B, O Connor RP, Kolstad J. The sustainabiUty of NatureWorks polylactide polymers and Ingeo jK)lylactide fibers an update of the future. Macromol Biosci 2004 4 551-564. 

Property PLA Ingeo 2003 (NatureWorks) PCL CAPA 6800 (Perstorp) PBSA Bionolle 3000 (Showa) PBAT Ecoflex (BASE)... 

Injection moldable PLA/PBS (Ingeo AW300) Thermoformable PLA/PBS (Ingeo AW240D)... 

Some of the leading manufacturers of PLA are NatureWorks (Ingeo, capacity of 140 kt per annum), Teijin (BioFront, 1-5 tons per annum, Hisun Biomaterials (5,000 t per annum), Purac/Sulzer/S3mbra, SK Chemicals, Biotech, Futerro, Mitsui Toatsu and Shimazu... 

Ingeo PLA is easily processable and suitable as amorphous biopackaging material as a result of its relatively high meso-lactide content. The downside is the poor resistance to elevated temperatures (low heat distortion temperature, HDT) during transportation, storage, and use of articles produced from this bioplastic. mc o-Lactide— which contains an L- and a D-isomer—is an unavoidable side product of lactide production and must be separated from L- and D-lactides of high stereochemical purity. 

The increased availability of PLA stimulated an increased in its research and development activities. A survey of the literature revealed that the number of published articles related to PLA increased exponentiaUy over the past decade, which can be also partly attributed to the escalating green movement that is stimulating the use of bio-based polymers. To date, the major PLA resin supphers have been Cargill (in the United States known as Ingeo ), Mitsui Chemicals, Inc. (in Japan known as LACEA ), Purac (The Netherlands), and Teijin Limited (in Japan known as Biofront ). Other important events that took place pertaining to PLA are summarized in Figure P.l and Table P.l. 

ROP of lactide, and numerous patents [30 - 33] which describe methods to produce PLA by the ROP of lactide have been filed. Furthermore, Nature Works LLC has developed a solvent-fiiee, low-cost continuous process for the production of PLA fit)m com-derived dextrose. The resulting PLA, commercially branded as Ingeo biopol)maer, is the first synthetic polymer to be produced from annually renewable resources. 

Kanebo, Inc. introduced a PLA fiber under the trade name Lactron M fiber at the February 1998 Nagano Winter Olympics, under the theme of Fashion for the Earth . Kanebo exhibited several garments from PLA or PLA/natural fiber blends. More recently, in 2003, Cargill Dow LLC (now NatureWorks LLC) announced their PLA fiber brand Ingeo (ingredient from the earth). 

NatureWorks LEG, http //www.ingeofibers.com/ingeo/home.asp (accessed April 2004). 

Ingeo Fibres bring natural performance - low odor. Testing by Odor Science and Engineering Inc., Technical Bulletin 290904. 

Moisture Transport in Ingeo Fibers Non-Woven Fabrics. Ingeo Fibers Technical Bulletin 380904 (Source www.ingeofibers.com). 

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