Poly(lactic acid). Группа авторов

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Название Poly(lactic acid)
Автор произведения Группа авторов
Жанр Химия
Серия
Издательство Химия
Год выпуска 0
isbn 9781119767466



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degradation phenomena of PLA are discussed in great length by various authors. Chapter 19 presents the mechanisms of photodegradation and radiolysis of PLA. Thermal degradation phenomena are highly relevant during the processing of PLA; Chapter 20 focuses on this topic wherein the authors address the apparent complexities of degradation kinetics through a multi‐step complex reaction analysis method. Chapter 21 discusses the mechanisms of hydrolytic degradation, taking polymer (e.g., molecular structure/weight, highly ordered structures, blends) and medium (e.g., temperature, pH) factors into considerations. Complementarily, Chapter 22 reviews the literature on enzymatic degradation, focusing on PLA derived from melt‐crystallized, solvent‐cast, and blend films. Recent advances in enzymes that degrade PLAs and their copolymers are also presented. The next two chapters deal with environmental issues, including topics such as life cycle assessment (Chapter 23) and end‐of‐life scenarios (Chapter 24). Finally, in Part V, various applications for PLA are discussed, including medical items (Chapter 25), packaging and consumer goods (Chapter 26), textiles (Chapter 27), and environmental applications (Chapter 28).

2021 NatureWorks production capacity reached 150,000 metric tons in Blair, NE, and a new plant of 75,000 metric tons in the Nakhon Sawan Province, Thailand was announced to be opened in 2024. Total Corbion produces 75,000 metric tons in Rayong, Thailand, and it announces a second plant in Grandpuits, France
2015 Enzyme‐based technology by Carbios rendering biodegradation of PLA at mesophilic conditions
2012 Announcement of production of high‐heat PLA by Total Corbion enabling durable applications
2010 Jung et al. employed recombinant Escherichia coli to produce PLAa
2009 PURAC, Sulzer, and Synbra announced production of PLA from solid lactide for foamed products
2009 Galactic and Total Petrochemicals from Belgium created a joint venture, Futerro, to begin PLA production
2009 Cargill, Inc. acquired full NatureWorks ownership from Teijin Ltd.
2008 Uhde Inventa Fischer and Pyramide Bioplastics announced large‐scale production of PLA in Guben, Germany
2008 PURAC started to commercialize solid lactide monomers under PURALACT™
2007 Teijin launched heat‐resistant stereocomplex PLA under Biofront
2007 NatureWorks LLC and Teijin Limited formed 50–50 joint venture to market Ingeo biobased thermoplastic resins
2005 Cargill, Inc. acquired The Dow Chemical Company’s share in Cargill‐Dow LLC 50–50 joint venture
2003 Toyota produced and developed PLA for automotive applications
1997 Formation of Cargill‐Dow LLC, a 50–50 joint venture of Cargill, Inc., and The Dow Chemical Company to commercialize PLA under the tradename NatureWorks
1997 Fiberweb (now BBA, France) introduced melt‐blown and spunlaid PLA fabrics under Deposa brand name
1996 Mitsui Chemicals commercialize PLA produced by polycondensation route
1994 Kanebo Ltd. introduced Lactron® PLLA fiber and spun‐laid nonwovens
1990s Cargill polymerized high‐molecular‐weight LA using commercially viable lactide ring‐opening reaction
1932 Wallace Hume Carothers and coworkers polymerized lactide to produce PLA
1845 Théophile Jules Pelouze synthetized PLA by lactic acid condensation

      a Jung et al. [1].

      We are grateful to all authors who contributed their manuscripts and thankful to them for entrusting us to edit their contributions to meet the needs of this volume. It would not have been possible to complete this project without their participation and patience during the preparation of this book. We hope that readers will find this updated edition of the book useful. We are looking forward to receiving comments and feedback regarding the content of this book.

      September