Sustainable 3d Printing For Innovative Biopolymer Production And Applications
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Sustainable 3D Printing for Innovative Biopolymer Production and Applications
This book highlights 3D-printed biopolymers’ advancements and sustainability, exploring cutting-edge research and real-world applications. Biopolymers have garnered global interest due to environmental concerns and are widely utilized in applications such as biomedicine, food, textiles, and cosmetics. Techniques like 3D printing have been extensively studied to fabricate reliable and efficient products, particularly in tissue engineering. These techniques enable the production of materials with complex structures and diverse functional groups. The book provides a comprehensive account of contemporary advancements in 3D-printed biopolymers, emphasizing their role in promoting sustainability and supporting the circular economy. Featuring meticulously curated chapters by leading scientists, it integrates diverse disciplines, including green biopolymers, nanotechnology, functionalization techniques, and material synthesis, offering a holistic understanding of the field. Several chapters delve into 3D printing processing techniques and their applications in areas such as water purification, energy storage, and biomedical advancements. Additionally, the book addresses progress in biopolymer technology, exploring its challenges and future prospects. Audience This book is ideal for industrial manufacturers, environmental chemists, materials and biopolymer scientists, and researchers in industries such as biomedicine, food, textiles, packaging, and cosmetics.
3D Printing with Biomaterials
Additive manufacturing or 3D printing, manufacturing a product layer by layer, offers large design freedom and faster product development cycles, as well as low startup cost of production, on-demand production and local production. In principle, any product could be made by additive manufacturing. Even food and living organic cells can be printed. We can create, design and manufacture what we want at the location we want. 3D printing will create a revolution in manufacturing, a real paradigm change. 3D printing holds the promise to manufacture with less waste and energy. We can print metals, ceramics, sand, synthetic materials such as plastics, food or living cells. However, the production of plastics is nowadays based on fossil fuels. And that’s where we witness a paradigm change too. The production of these synthetic materials can be based also on biomaterials with biomass as feedstock. A wealth of new and innovative products are emerging when we combine these two paradigm changes: 3D printing and biomaterials. Moreover, the combination of 3D printing with biomaterials holds the promise to realize a truly sustainable and circular economy.
Design and Assessment of Sustainable Products
Author: Magdalena Wojnarowska
language: en
Publisher: Taylor & Francis
Release Date: 2024-12-30
This book questions the current definition of what makes a product sustainable and argues that a holistic approach to sustainable product design is required, one that considers all aspects of a product’s life cycle from design to production, to use and then final disposal. This edited collection introduces a new set of methods and tools aligned with the concept of comprehensive sustainable produce design that integrates the environmental and social benefits of a product in line with the principles of a circular economy. It provides a comprehensive understanding of the theoretical and practical framework that underpins a sustainable product, highlighting the multiple key roles of (eco-)design, innovation, quality, and sustainability. The authors describe the criteria for which products can be defined as being sustainable, and outline how different manufacturing technologies influence the value of those products and the place they can find on the market accordingly. The book’s significant contribution lies in identifying the critical factors that are needed to successfully implement the framework throughout the entire life cycle of the product in a holistic integrated approach. This book will be of interest for researchers and students studying sustainable product design, environmental studies, engineering, and sustainable business management. It will also be a useful resource for representatives of the business community, managers, technicians, decision‐makers, and consumers interested in sustainable product design issues.