3D Printing Books
O'Reilly Media Getting Started with 3D Printing: A Hands-on
Book SynopsisThe book is written in a casual, conversational style. It is easily accessible to those who have no prior knowledge in 3D printing, yet the book's message is solidly practical, technically accurate, and consumer-relevant. The chapters include contemporary, real-life learning exercises and insights for how to buy, use and maintain 3D printers. It also covers free 3D modeling software, as well as 3D printing services for those who don't want to immediately invest in the purchase of a 3D printer. Particular focus is placed on free and paid resources, the various choices available in 3D printing, and tutorials and troubleshooting guides.
£14.39
Elsevier Science Metamaterial Design and Additive Manufacturing
Book SynopsisTable of Contents1. Introduction 2. Mechanical metamaterials 3. Acoustic metamaterials 4. Thermal metamaterials 5. Metamaterial-based porous metallic biomaterials 6. Microlattice metamaterials 7. Plate-lattice Metamaterials 8. Business opportunities and future research directions
£121.50
DOM Publishers 3D Printing and Material Extrusion
Book Synopsis3D printing is said to revolutionise architecture: Thanks to new technologies, plastic, concrete, or metal can be extruded in a liquid state and then hardened into its final form. With this Construction and Design Manual, architects and researchers Kostas Grigoriadis and Guan Lee present a comprehensive, up-to-date overview of the topic. The book consists of detailed case studies of 3D printed buildings, the materials that can be used in large-scale additive manufacturing, and a breakdown of the corresponding design guidelines, limitations, and achievable build dimensions. In addition to these, the focus is on the environmental aspects of the method, the lifecycle of 3D printable materials, and the embodied energy of 3D printing compared to conventional building construction.
£999.99
Taylor & Francis Ltd 3D Printing for Product Designers
Book Synopsis3D Printing for Product Designers closes the gap between the rhetoric of 3D printing in manufacturing and the reality for product designers. It provides practical strategies to support the adoption and integration of 3D printing into professional practice.3D printing has evolved over the last decade into a practical proposition for manufacturing, opening up innovative opportunities for product designers. From its foundations in rapid prototyping, additive manufacturing has developed into a range of technologies suitable for end-use products. This book shows you how to evaluate and sensitively understand people, process, and products and demonstrates how solutions for working with additive manufacturing can be developed in context. It includes a practical, step-by-step plan for product designers and CEOs aimed at supporting the successful implementation of 3D printing by stakeholders at all levels of a manufacturing facility, tailored to their stage of technology integration and business readiness. It features a wide range of real-world examples of practice illustrated in full colour, across industries such as healthcare, construction, and film, aligning with the strategic approach outlined in the book.The book can be followed chronologically to guide you to transform your process for a company, to meet the unique needs of a specific client, or to be used as a starting point for the product design entrepreneur. Written by experienced industry professionals and academics, this is a fundamental reference for product designers, industrial designers, design engineers, CEOs, consultants, and makers.Trade Review"It would be difficult to find three individuals with greater knowledge of the subject. The detail in the book is presented in a rich and practical way. If you are new to 3D printing or have been familiar with it for years, you will benefit from this outstanding publication." Terry Wohlers, Head of Advisory Services and Market Intelligence, Wohlers Associates, USATable of ContentsIntroduction 1. Demystifying 3D printing processes and workflow 2. Working with a design for additive manufacturing (DfAM) consultancy 3. Strategy 1: Working with existing production 4. Strategy 2: Product redesign and new product design 5. Strategy 3: Digital business innovation 6. Case studies: 3D Printing from the product designers’ perspective 7. DfAM: Design guidelines for product designers 8. 3D printing sustainability and digital ecosystems 9. Making the future/remaking product design
£33.99
Emerald Publishing Limited Additive Manufacturing for Construction
Book SynopsisAdditive Manufacturing for Construction reveals additive manufacturing technologies for building and construction applications. The book explores on-site and off-site construction techniques, featuring design strategies which will eliminate production difficulties and minimise assembly costs, from both academic and industrial perspectives.Table of ContentsChapter 1. Extrusion Based 3D Printing Technology Chapter 2. Shotcrete 3D Printing Technology Chapter 3. Powder Bed 3D Printing Technology Chapter 4. Metal Powder Based Fusion 3D Printing Chapter 5. Wire and Arc Additive Manufacturing Chapter 6. Robocasting 3D Printing Technology Chapter 7. Design for Construction Additive Manufacturing Chapter 8. Business Opportunities and Future Directions
£80.75
Hanser Publications Disruptive 3D Printing
Book SynopsisThis book unites the two sides of additive manufacturing: 1) the technical aspect of 3D printing of very different materials and 2) the disruptive consequences for value chains between producers, intermediaries, and customers due to modern business models. This is because 3D printing breaks with many existing business models: companies take over functions from their previous suppliers (following the "do-it-yourself" trend), intermediaries lose their livelihood (so-called "disintermediation"), manufacturers move their production to decentralized locations (e.g., retailers, car dealerships, or hospitals, so-called "decentralized production"), and (end) customers become much more intensive "prosumers" than marketing (as creator of this term) could ever imagine.The business models of many existing companies from very different industries are becoming toxic, i.e., threatening their very existence, as in logistics and warehousing, industry, services, retail, or customer service. Conversely, there are also many opportunities for modern, existence-securing business models, which the book discusses in more detail. In this way, this book not only shows to a broad range of readers the dangers of disruptive 3D printing technology, but also offers solution approaches and procedural models for identifying new economic livelihoods and competitive advantages. Thanks to the collaboration of the two authors, a profound knowledge of already existing references and management models can be drawn upon.Trade ReviewRalf Anderhofstadt and Marcus Disselkamp's recent publication illuminates the technical intricacies of additive manufacturing and various materials, in addition to exploring disruptive business models that impact the entire value chain. As such, their work addresses a highly relevant and contemporary subject matter. [...] Following the publication of the German version in August 2022, the English version includes further international AM experts with their perspectives in the English book. In addition, other exciting new topics have been added in the English version, such as linking 3D printing to the metaverse or even completely new, promising 3D printing production processes." 3printr.com, 09.03.2023
£77.40
A S M International ASM Handbook, Volume 23A: Additive Manufacturing in Biomedical Applications
Book SynopsisThe new ASM Handbook, Volume 23A provides a comprehensive review of established and emerging 3D printing and bioprinting approaches for biomedical applications, and expansive coverage of various feedstock materials for additive manufacturing.The Volume includes articles on 3D printing and bioprinting of surgical models, surgical implants, and other medical devices: The introductory section considers developments and trends in additively manufactured medical devices and material aspects of additively manufactured medical devices. The polymer section considers vat polymerization and powder bed fusion of polymers. The ceramics section contains articles on binder jet additive manufacturing and selective laser sintering of ceramics for medical applications. The metals section includes articles on additive manufacturing of stainless steel, titanium alloy, and cobalt-chromium alloy biomedical devices. The bioprinting section considers laser-induced forward transfer, piezoelectric jetting, microvalve jetting, plotting, pneumatic extrusion, and electrospinning of biomaterials. Finally, the applications section includes articles on additive manufacturing of personalized surgical instruments, orthotics, dentures, crowns and bridges, implantable energy harvesting devices, and pharmaceuticals. Selected articles will be published digital-first in the ASM Digital Library at dl.asminternational.org in advance of the full volume release.Table of Contents INTRODUCTION TO ADDITIVE MANUFACTURING IN BIOMEDICAL APPLICATIONS Developments and Trends in Additively Manufactured Medical Devices Material Aspects of Additively Manufactured Medical Devices POLYMER ADDITIVE MANUFACTURING PROCESSES IN BIOMEDICAL APPLICATIONS Vat Polymerization Medical Applications of VAT Polymerization Powder-Bed Fusion of Polymers CERAMIC ADDITIVE MANUFACTURING PROCESSES IN BIOMEDICAL APPLICATIONS Binder Jet Additive Manufacturing of Biomaterials Selective Laser Sintering of Hydroxyapatite-Based Materials for Tissue Engineering Production of Dicalcium Phosphate (DCPD) with Controlled Morphology and Reactivity METAL ADDITIVE MANUFACTURING PROCESSES IN BIOMEDICAL APPLICATIONS Powder Bed Fusion Directed Energy Deposition Development of Alloy Powders for Biomedical Additive Manufacturing Additive Manufacturing of Stainless Steel Biomedical Devices Additive Manufacturing of CoCr Alloy Biomedical Devices Additive Manufacturing of Titanium and Titanium Alloy Biomedical Devices Material Aspects of Additively Manufactured Orthopedic Implants of Titanium Alloys BIOMATERIALS AND BIOPRINTING In Situ Bioprinting--Current Applications and Future Challenges Rational Design of Materials for 3D Bioprinting of Bioinks for Fabricating Human Tissues Stereolithographic Additive Manufacturing of Biological Scaffolds Laser-Induced Forward Transfer of Biomaterials Inkjetting of Biomaterials Piezoelectric Jetting of Biomaterials Micro-Valve Jetting of Biomaterials Micro/Nanoscale Plotting of Biomaterials Pneumatic Extrusion of Biomaterials Extrusion-Based 3D Bioprinting Technology High-Throughput Electrospinning of Biomaterials Bioprinting/Biofabrication with Alginate/Gelatine-Based Bioinks 3D Bioprinting of Naturally Derived Protein-Based Biopolymers BIOMEDICAL APPLICATIONS OF ADDITIVELY MANUFACTURED MATERIALS Bioprinting for Bone Tissue Engineering Anatomical Modeling at the Point-of-Care Personalized Surgical Instruments Additive Manufacturing of Medical Devices Additively Manufactured Orthotics Additively Manufactured Biomedical Energy Harvesters Additive Manufacturing in Medicine and Craniofacial Applications of 3D Printing Additively Manufactured Dental Appliances Additively Manufactured Dentures, Crowns, and Bridges Zirconia for Dental Implants Pharmaceutical 3D Printing REFERENCE INFORMATION Index
£275.40
Springer International Publishing AG A Guide to Additive Manufacturing
Book SynopsisThis open access book gives both a theoretical and practical overview of several important aspects of additive manufacturing (AM). It is written in an educative style to enable the reader to understand and apply the material. It begins with an introduction to AM technologies and the general workflow, as well as an overview of the current standards within AM. In the following chapter, a more in-depth description is given of design optimization and simulation for AM in polymers and metals, including practical guidelines for topology optimization and the use of lattice structures. Special attention is also given to the economics of AM and when the technology offers a benefit compared to conventional manufacturing processes. This is followed by a chapter with practical insights into how AM materials and processing parameters are developed for both material extrusion and powder bed fusion. The final chapter describes functionally graded AM in various materials and technologies. Throughout the book, a large number of industrial applications are described to exemplify the benefits of AM. Table of Contents2. Introduction to Additive Manufacturing 2.1. What is Additive Manufacturing 2.2. Why do we need Additive Manufacturing 2.3. Additive Manufacturing Classification 2.4. Vat polymerization 7 2.5. Material jetting 12 2.6. Binder jetting 16 2.7. Powder Bed Fusion Technologies 20 2.8. Material Extrusion Additive Manufacturing (MEAM) Technologies 32 3. General process workflow in AM 44 3.1. Pre-processing for additive manufacturing 45 3.2. Build and post-processing 52 4. Standardisation in AM 55 4.1. Introduction to Standards 55 4.2. AM Standards 57 4.3. Reading, Writing and Retrieving Standards 62 4.4. Conclusion 64 4.5. External Resources 65 5. Design for AM 67 5.1. The general thought process of DfAM 67 5.2. The economics of DfAM 71 5.3. Polymer design guidelines 78 5.4. Metal design guidelines 100 6. General Process Simulations 119 6.1. Simulation 119 6.2. AM build process simulation 122 6.3. Optimization 125 6.4. Lattice-based topology optimization 137 6.5. Non-parametric mesh modelling 139 7. Applications of AM 144 7.1. AM in toolmaking application 144 7.2. AM application in medicine 166 7.3 AM applications in transportation 8. Development of material and processing parameters for AM 187 8.1. Development of materials for Material Extrusion AM 187 8.2. Development of materials for PBF technologies 203 8.3. Development of materials for L-PBF 244 9. Development of FGM and FGAM 256 9.1. Functionally Graded Material (FGM) 256 9.2. Functionally Graded Additive Manufacturing (FGAM) 260 9.3. Conclusion 265
£39.89
Taylor & Francis Ltd 3D Printing for Product Designers
a huge range and FREE tracked UK delivery on ALL orders.
£118.75