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This book provides a wealth of practical guidance on how to design parts to gain the maximum benefit from what additive manufacturing (AM) can offer. It begins by describing the main AM technologies and their respective advantages and disadvantages. It then examines strategic considerations in the context of designing for additive manufacturing (DfAM), such as designing to avoid anisotropy, designing to minimize print time, and post-processing, before discussing the economics of AM. The following chapters dive deeper into computational tools for design analysis and the optimization of AM parts, part consolidation, and tooling applications. They are followed by an in-depth chapter on designing for polymer AM and applicable design guidelines, and a chapter on designing for metal AM and its corresponding design guidelines. These chapters also address health and safety, certification and quality aspects. A dedicated chapter covers the multiple post-processing methods for AM, offering the reader practical guidance on how to get their parts from the AM machine into a shape that is ready to use. The book’s final chapter outlines future applications of AM. The main benefit of the book is its highly practical approach: it provides directly applicable, “hands-on” information and insights to help readers adopt AM in their industry.
Engineering design. --- Manufactures. --- Nanotechnology. --- Engineering Design. --- Manufacturing, Machines, Tools, Processes. --- Molecular technology --- Nanoscale technology --- High technology --- Manufactured goods --- Manufactured products --- Products --- Products, Manufactured --- Commercial products --- Manufacturing industries --- Design, Engineering --- Engineering --- Industrial design --- Strains and stresses --- Design
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World War, 1914-1918 --- Soldiers --- Nurses --- Military nursing --- Personal narratives. --- Medical care --- Hospitals. --- Casualties. --- History --- Biography. --- La Motte, Ellen N. --- European War, 1914-1918 --- First World War, 1914-1918 --- Great War, 1914-1918 --- World War 1, 1914-1918 --- World War I, 1914-1918 --- World War One, 1914-1918 --- WW I (World War, 1914-1918) --- WWI (World War, 1914-1918) --- History, Modern --- Armed Forces personnel --- Members of the Armed Forces --- Military personnel --- Military service members --- Service members --- Servicemen, Military --- Armed Forces --- Medicine, Military --- Nursing
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The clothing and textile industry is a resource-intensive industry and accounts for 3 to 10 percent of global carbon dioxide emissions. In addition, the industry is extremely linear and generates large amounts of waste. For the industry to move from a linear to a circular economy, several solutions are required along the value chain: upstream by working with resource efficiency, the longevity of textile products, and preventing waste; and downstream with techniques for sorting and recycling. In addition, solutions for traceability and transparency need to be developed and coordinated as accepted methods for sustainability measurements. This Special Issue (SI) "Sustainable Fashion and Textile Recycling" brings together areas of knowledge along the textile value chain to highlight the difficulties and opportunities that exist from both a broader perspective and in specific issues. In this SI, these 11 papers are mainly devoted to new research in traceability, design, textile production, and recycling. Each valuable article included in this Special Issue contributes fundamental knowledge for a transformation of the textile and fashion industry to take place. Numerous studies, solutions, and ideas need to be carried out to create the innovations that will become the reality of our future. Likewise, we need to learn from each other and take advantage of all the fantastic knowledge that is generated globally every day towards a better future for generations to come.
Technology: general issues --- Chemical engineering --- textile recycling --- yarn spinning --- inter-fiber cohesion --- lubricant --- mechanical tearing --- life cycle assessment --- normalization method --- environmental impacts --- ozonation process --- decolorization --- reactive dyed cotton textiles --- “gate-to-gate” life cycle assessment (LCA) --- design methodology --- materials science --- regenerated cellulose --- composites --- fabrication --- material design --- transdisciplinary --- interdisciplinary --- circular economy --- textile life cycle --- environmental aspects --- ecolabel --- sustainable textiles --- textile --- recycling --- circular fashion --- polymer structure --- fashion --- apparel --- challenges --- circularity --- sustainability --- emotional durability --- 3D printing fashion product design --- Korean aesthetic --- polyester --- alkaline hydrolysis --- depolymerization --- peeling reaction --- textile blend --- viscose --- industrial process layout --- regenerated fibres --- regenerated protein fibres --- waste --- valorisation --- garment industry --- manmade fibres --- textile processing --- textile history --- Ardil --- textile waste --- virgin cotton --- denim fabric --- Design-Expert software --- n/a --- "gate-to-gate" life cycle assessment (LCA)
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