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Issue 06/2017

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  • Bioplastics
  • Biobased
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bioplasticsMAGAZINE_1706

Polyurethanes /

Polyurethanes / Elastomers Biobased thermoplastic elastomer compounds In response to increasing demands for sustainable alternatives to fossil based flexible polymer compounds, international compounding group, HEXPOL ® TPE, launched the Dryflex ® Green family of biobased Thermoplastic Elastomers (TPE) in 2015. Since then they have continued to develop the range, adding new possibilities to the biobased thermoplastic market by covering a wider range of hardnesses while incorporating high levels of renewable content. TPEs are often described as the bridge between rubber and plastics, they combine elasticity, flexibility and softness similar to rubber with the recyclability and processing advantages of plastics. Hexpol TPE were among the first companies to develop TPE compounds in Europe and they built on their 50 years heritage in the flexible polymers market in developing their biobased materials. Dryflex Green TPE compounds are available from 15 Shore A through to 55 Shore D. The range includes grades with biobased content over 90 % (ASTM D 6866), achieved by use of sustainable raw materials and feedstocks such as sugarcane, with recognised certifications such as ISCC+ and can derive from raw materials such as polymers, fillers, plasticizers or additives. For applications wanting a look even closer to nature, Hexpol TPE has developed compounds using organic fillers and natural fibres from plants, crops or trees, including cork, these give an additional ‘organic’ appearance. Cork is a natural product which comes from the bark of the cork oak tree. The removal of the bark does not harm the trees and the bark is only harvested after the first 20 years of growth. The removal stimulates a steady regeneration of the bark. Dryflex Green TPE compounds display mechanical and physical properties close to and comparable to TPE compounds from fossil based raw materials. In general the Dryflex Green compounds show very good bonding behaviour to PE and PP, special grades with good bonding to ABS, PET and PLA are also available. Like conventional TPE compounds, Dryflex Green TPEs can easily be coloured to give vibrant and appealing visual impact. Grades suitable for food contact are also available. Dryflex Green TPE compounds can be used in many applications that currently use conventional TPE and flexible polymers, such as soft-touch grips and handles, sealings, mats and closures, Klas Dannäs, Global R&D manager at Hexpol TPE commented “We’re seeing some very interesting development projects for the Dryflex Green materials; for applications ranging from household goods, sports equipment and toys to automotive interiors, packaging and infant care. Our R&D teams are constantly evaluating new polymer combinations and we have been working closely with suppliers to develop sustainable and ethical alternatives to fossil-based polymer compounds.” MT www.hexpolTPE.com HEXPOL TPE worked with Wildo Sweden AB on the development of a biobased TPE for their iconic Fold-A-Cup. Typical Percentage of Bio-Content vs Hardness in Biobased TPEs Table 1: Typical Properties of Representative Dryflex Green Grades HARDNESS (1) ISO 868 BIOBASED CARBON CONTENT % on TOC ASTM D6866-12 DENSITY g/cm³ TENSILE STRENGTH (2) MPa ISO 2781 ISO 37 (Type 1) ELONGATION AT BREAK (2) % ISO 37 (Type 1) 25 Shore A >40 0.89 1.3 500 40 Shore A >40 0.91 2 410 50 Shore A >80 0.89 5 500 60 Shore A >75 0.91 5 360 70 Shore A >50 0.93 8 700 80 Shore A >80 0.91 6 500 55 Shore D >70 0.94 20 900 (1) After 15 seconds, (2) Across the flow direction 18 bioplastics MAGAZINE [06/17] Vol. 12

© 3,5 actual data 3 2,5 2 1,5 1 0,5 2011 2012 2013 L-LA Epichlorohydrin Succinic 1,4-BDO acid -Institut.eu | 2017 forecast 2014 2015 2016 2017 2018 2019 2020 2021 Sebacic MEG Ethylene 1,3-PDO MPG Lactide acid 2,5-FDCA D-LA 11-Aminoundecanoic acid Adipic DDDA acid Full study available at www.bio-based.eu/reports © 100% 80% 60% 40% 20% 0% -Institut.eu | 2017 PBS(X) APC – cyclic PA PET PTT PBAT Starch Blends PHA PLA PE Full study available at www.bio-based.eu/markets © 10 5 0 2011 2012 PUR PA -Institut.eu | 2016 actual data 2% of total polymer capacity, €13 billion turnover 2013 2014 2015 2016 Epoxies PET CA PBS PBAT PHA 2017 Starch Blends EPDM 2018 PLA APC 2019 2020 PE PEF 2021 PTT Full study available at www.bio-based.eu/markets Bio-based Polymers & Building Blocks The best market reports available Data for 2016 Commercialisation updates on bio-based building blocks Standards and labels for bio-based products Bio-based polymers, a revolutionary change Bio-based Building Blocks and Polymers Selected bio-based building blocks: Evolution of worldwide production capacities from 2011 to 2021 Comprehensive trend report on PHA, PLA, PUR/TPU, PA and polymers based on FDCA and SA: Latest developments, producers, drivers and lessons learnt Global Capacities and Trends 2016 – 2021 million t/a Bio-based polymers, a revolutionary change million t/a Bio-based polymers: Evolution of worldwide production capacities from 2011 to 2021 Jan Ravenstijn 2017 E-mail: j.ravenstijn@kpnmail.nl Mobile: +31.6.2247.8593 Picture: Gehr Kunststoffwerk Author: Doris de Guzman, Tecnon OrbiChem, United Kingdom July 2017 This and other reports on the bio-based economy are available at www.bio-based.eu/reports Authors: Lara Dammer, Michael Carus and Dr. Asta Partanen nova-Institut GmbH, Germany May 2017 This and other reports on the bio-based economy are available at www.bio-based.eu/reports Author: Jan Ravenstijn, Jan Ravenstijn Consulting, the Netherlands April 2017 This and other reports on the bio-based economy are available at www.bio-based.eu/reports Authors: Florence Aeschelmann (nova-Institute), Michael Carus (nova-institute) and ten renowned international experts February 2017 This is the short version of the market study (249 pages, € 2,000). Both are available at www.bio-based.eu/reports. Policies impacting bio-based plastics market development and plastic bags legislation in Europe Asian markets for bio-based chemical building blocks and polymers Brand Views and Adoption of Bio-based Polymers Market study on the consumption of biodegradable and compostable plastic products in Europe 2015 and 2020 Share of Asian production capacity on global production by polymer in 2016 A comprehensive market research report including consumption figures by polymer and application types as well as by geography, plus analyses of key players, relevant policies and legislation and a special feature on biodegradation and composting standards and labels Bestsellers Disposable tableware Biowaste bags Carrier bags Rigid packaging Flexible packaging Authors: Dirk Carrez, Clever Consult, Belgium Jim Philp, OECD, France Dr. Harald Kaeb, narocon Innovation Consulting, Germany Lara Dammer & Michael Carus, nova-Institute, Germany March 2017 This and other reports on the bio-based economy are available at www.bio-based.eu/reports Author: Wolfgang Baltus, Wobalt Expedition Consultancy, Thailand This and other reports on the bio-based economy are available at www.bio-based.eu/reports Author: Dr. Harald Kaeb, narocon Innovation Consulting, Germany January 2016 This and other reports on the bio-based economy are available at www.bio-based.eu/reports Authors: Harald Kaeb (narocon, lead), Florence Aeschelmann, Lara Dammer, Michael Carus (nova-Institute) April 2016 The full market study (more than 300 slides, 3,500€) is available at bio-based.eu/top-downloads. www.bio-based.eu/reports www.co2-chemistry.eu Leading Event on Carbon Capture and Utilisation 15 – 16 March 2018, Cologne (Germany) Conference Team Jutta Millich Partners, Media Partners +49 (0)0561 503580-44 jutta.millich@nova-institut.de Dr. Asta Partanen Sponsoring +49 (0)2233 4814-59 asta.partanen@nova-institut.de Achim Raschka Programme +49 (0)2233 4814-51 achim.raschka@nova-institut.de Conference highlights and main topics • CO 2 for feed – proteins made from carbon dioxide • CO 2 for platform chemicals and polymers • CO 2 for future fuels • CO 2 for aviation kerosene • Sustainability & climate change mitigation potential • Key drivers: renewable energy & hydrogen production • Artificial photosynthesis as future technology • Political framework & visions Newsticker on Carbon Capture and Utilisation! Free access: www.co2-chemistry.eu/news www.co2-chemistry.eu Dominik Vogt Conference Manager +49 (0)2233 4814-49 dominik.vogt@nova-institut.de Venue Maternushaus Kardinal-Frings-Str. 1 50668 Cologne www.maternushaus.de Organiser nova-Institut GmbH Chemiepark Knapsack Industriestraße 300 50354 Hürth, Germany bioplastics MAGAZINE [06/17] Vol. 12 19

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