Additive Manufacturing Skills in Practice

Learn how 3D scanning technology drives advanced manufacturing and modern construction. 3D scanning technology allows non-contact scanning of objects for unprecedented data collection, analysis, and modeling. 3D models created this way are valuable at every stage of the design and build process and they have become a staple in additive manufacturing or 3D printing. As 3D printing transforms global industry at every scale, there has never been a better time for engineers and industrial professionals to be competitive in the area of 3D scanning, a multibillion-dollar market that continues to grow. “3D Scanning Technology for Advanced Manufacturing, Design, and Construction” provides a comprehensive introduction to 3D scanning and its applications in both the AEC and manufacturing industries. After establishing the history and basic principles of 3D scanning, it includes discussions of the various scanner types and software interfaces, the use of 3D point clouds for analysis and reverse engineering, and much more. It covers the full range of technology and processes that engineers, architects, and manufacturing professionals use to increase accuracy and quality while reducing project timelines. Readers of “3D Scanning Technology for Advanced Manufacturing, Design, and Construction” will also find: • Case studies that highlight techniques useful for specific real-world applications • Comparisons of various scanning devices and software that aid in choosing the proper technologies for a specific project • Resources and references for online learning, organizations, and certifications Perfect for engineers, technicians, students, and industry professionals new to laser scanning, “3D Scanning Technology for Advanced Manufacturing, Design, and Construction” will earn its place in libraries of technical, vocational, and continuing education audiences seeking to improve their knowledge of 3D scanning.

Concise, practical guide presenting skills to integrate porous structure design with additive manufacturing requirements Part of Wiley's Additive Manufacturing Skills in Practice series and written with the industry practitioner in mind, Advanced Techniques in Porous Structure Design for Additive Manufacturing addresses the growing integration of porous structures and additive manufacturing, essential for applications in the biomedical, aerospace, and automotive fields in which porous structures are crucial due to their ability to deliver top-notch performance alongside lightweight characteristics. This book covers all areas of the subject and concludes with a series of specialized chapters devoted to simulation software, case studies, and future trends and emerging technologies. Each chapter features a design problem that presents an open-ended scenario to prompt readers to think through the real-world applications of the concepts and theories discussed and connect them to their own job roles. Topics discussed in Advanced Techniques in Porous Structure Design for Additive Manufacturing include: • Fundamentals of additive manufacturing, covering processes, materials, and design considerations • Mathematical modeling, covering optimization techniques and the finite element method • Multiscale topology optimization, shape optimization methods, and post-processing techniques • Software utilization in porous structure design, with information on how to program simulations • Porous structures in soft robotics, porous heat sinks, porous plates, and porous mechanical support structures With a blend of theoretical understanding and hands-on expertise in an emerging domain, Advanced Techniques in Porous Structure Design for Additive Manufacturing is an essential reference for industry professionals, researchers, and postgraduate students in universities, particularly those specializing in mechanical design and additive manufacturing.

Fundamentals of Additive Manufacturing for the Practitioner Discover how to shift from traditional to additive manufacturing processes with this core resource from industry leaders Fundamentals of Additive Manufacturing for the Practitioner delivers a vital examination of the methods and techniques needed to transition from traditional to additive manufacturing. The book explains how traditional manufacturing work roles change as various industries move into additive manufacturing and describes the flow of the typical production process in additive manufacturing. Detailed explorations of the processes, inputs, machine and build preparation, post-processing, and best practices are included, as well as real-world examples of the principles discussed within. Every chapter includes a problems and opportunities section that prompts readers to apply the book's techniques to their own work. Diagrams and tables are distributed liberally throughout the work to present concepts visually, and key options and decisions are highlighted to assist the reader in understanding how additive manufacturing changes traditional workflows. Readers will also benefit from the inclusion of • A thorough introduction on how to move into additive manufacturing, including the identification of a manufacturing opportunity and its characteristics • An exploration of how to determine if additive manufacturing is the right solution, with descriptions of the origins of additive manufacturing and the current state of the technology • An examination of the materials used in additive manufacturing, including polymers, composites, metals, plasters, and biomaterials • A discussion of choosing an additive manufacturing technology and process Perfect for mechanical engineers, manufacturing professionals, technicians, and designers new to additive manufacturing, Fundamentals of Additive Manufacturing for the Practitioner will also earn a place in the libraries of technical, vocational, and continuing education audiences seeking to improve their skills with additive manufacturing workflows.

Offers a practical roadmap for successfully applying additive manufacturing to orthopedic implants As additive manufacturing (AM) transforms the orthopedic implant landscape, professionals are facing a growing need for guidance that connects advanced manufacturing techniques with practical regulatory and validation requirements. Additive Manufacturing for Orthopedic Implants: Material and Process Selection, Validation Activities, and Regulatory Submissions delivers exactly that-a clear, concise resource designed specifically for engineers, designers, and regulatory specialists working at the intersection of innovation and compliance. Written by seasoned professionals with deep experience in additive technologies, mechanical testing, and regulatory environments, this book walks readers through the critical steps involved in developing spine, hip, knee, shoulder, and other implant products using additive manufacturing. The content spans the full product lifecycle, from design and prototyping to process validation and FDA submission preparation. Key insights into various AM technologies and post-processing methods are grounded in real-world examples and case studies that illuminate common challenges and successful solutions. Providing the essential tools for navigating a complex and rapidly evolving field, Additive Manufacturing for Orthopedic Implants: • Clarifies material selection criteria specific to different implant types and AM technologies • Explores the interplay between design freedom and regulatory expectations in patient-specific implants • Highlights common failure modes and risk mitigation strategies in AM orthopedic manufacturing • Addresses facility, inspection, and documentation needs to meet compliance and audit standards • Features decision-making aids, checklists, and process validation frameworks to support practical implementation • Demystifies the regulatory requirements specific to additively manufactured products Integrating insights from multiple disciplines, including biomedical engineering, regulatory affairs, and quality assurance, Additive Manufacturing for Orthopedic Implants: Material and Process Selection, Validation Activities, and Regulatory Submissions is essential for professionals working in medical device manufacturing, particularly those developing orthopedic implants using additive technologies. It is also suitable for graduate-level courses in biomedical engineering, additive manufacturing, and medical device design.