Ge Additive Technology Center

  ge additive technology center: Additive Manufacturing for the Aerospace Industry Francis H. Froes, Rodney Boyer, 2019-02-15 Additive Manufacturing for the Aerospace Industry explores the design, processing, metallurgy and applications of additive manufacturing (AM) within the aerospace industry. The book's editors have assembled an international team of experts who discuss recent developments and the future prospects of additive manufacturing. The work includes a review of the advantages of AM over conventionally subtractive fabrication, including cost considerations. Microstructures and mechanical properties are also presented, along with examples of components fabricated by AM. Readers will find information on a broad range of materials and processes used in additive manufacturing. It is ideal reading for those in academia, government labs, component fabricators, and research institutes, but will also appeal to all sectors of the aerospace industry. - Provides information on a broad range of materials and processes used in additive manufacturing - Presents recent developments in the design and applications of additive manufacturing specific to the aerospace industry - Covers a wide array of materials for use in the additive manufacturing of aerospace parts - Discusses current standards in the area of aerospace AM parts
  ge additive technology center: A Baseline of Development Darrel W. Staat, 2019-06-11 This book is a result of research into ten technologies currently under development that will directly affect community colleges and universities, most within the next 5-20 years and a few within the next 20-30 years. The research conducted on each of the technologies provides a baseline of current development, and predictions of when they may impact institutions of higher education. These technologies develop in two phases, first, in a linear manner, and second, following up with an exponential velocity. The development of Uber and Airbnb are good examples of the speed of exponential development. Institutions of higher education need to be prepared for the disruptions that the ten technologies discussed will create.
  ge additive technology center: The Pan-Industrial Revolution Richard D'Aveni, 2018-10-16 The acclaimed author of Strategic Capitalism presents a provocative new vision of global industry in the age of 3-D printing: “essential business reading” (Kirkus, starred review). With books like Hypercompetition and Strategic Capitalism, Richard D’Aveni has established himself as a business strategist of uncanny prescience. In The Pan-Industrial Revolution, he demonstrates how the advent of industrial‑scale 3‑D printing is already happening under the radar, and that it will have a far‑reaching impact that most corporate and governmental leaders have yet to anticipate or understand. 3-D printing, now called additive manufacturing, has moved far beyond a desktop technology used by hobbyists to churn out trinkets and toys. In this eye-opening account, D’Aveni reveals how recent breakthroughs have been secretly adapted by Fortune 500 companies to revolutionize the manufacture jet engines, airplanes, automobiles, and so much more. D’Aveni explains how this technology will transform the landscape of manufacturing, and the dramatic effect this change will have on the world economy. A handful of massively powerful corporations—what D’Aveni calls pan‑industrials—will become as important as any tech giant in re-structuring the global order.
  ge additive technology center: Additive Manufacturing Amit Bandyopadhyay, Susmita Bose, 2015-09-08 The field of additive manufacturing has seen explosive growth in recent years due largely in part to renewed interest from the manufacturing sector. Conceptually, additive manufacturing, or industrial 3D printing, is a way to build parts without using any part-specific tooling or dies from the computer-aided design (CAD) file of the part. Today, mo
  ge additive technology center: A Comprehensive Approach to Digital Manufacturing Arif Sirinterlikci, Yalcin Ertekin, 2023-04-04 This book draws a comprehensive approach to digital manufacturing through computer-aided design (CAD) and reverse engineering content complemented by basic CNC machining and computer-aided manufacturing (CAM), 3D printing, and additive manufacturing (AM) knowledge. The reader is exposed to a variety of subjects including the history, development, and future of digital manufacturing, a comprehensive look at 3D printing and AM, a comparative study between 3D printing and AM and CNC machining, and computer-aided engineering (CAE) along with 3D scanning. Applications of 3D printing and AM are presented as well as multiple special topics including design for 3D printing and AM (DfAM), costing, sustainability, environmental, safety, and health (EHS) issues. Contemporary subjects such as bio-printing, intellectual property (IP) and engineering ethics, virtual prototyping including augmented, virtual, and mixed reality (AR/VR/MR), and industrial Internet of Things (IIoT) are also covered. Each chapter comes with in-practice exercises and end-of-chapter questions, which can be used as home-works as well as hands-on or software-based laboratory activities. End-of-chapter questions are of three types mainly: review questions which can be answered by reviewing each chapter, research questions which need to be answered by conducting literature reviews and additional research, and discussion questions. In addition, some of the chapters include relevant problems or challenges which may require additional hands-on efforts. Most of the hands-on and practical content is driven by the authors’ previous experiences. The authors also encourage readers to help improve this book and its exercises by contacting them.
  ge additive technology center: Women in 3D Printing Stacey M DelVecchio, 2021-07-20 This book provides insights into the possibilities, realities and challenges of the rapidly evolving world of 3D printing or additive manufacturing. Contributors cover the applications for 3D printing, available materials, research, and the business of additive manufacturing from start-ups to Fortune 500 companies. As an important part of the Women in Science and Engineering book series, the work highlights the contribution of women leaders in additive manufacturing, inspiring women and men, girls and boys to enter and apply themselves to world of 3D printing and be a part of bringing the true potential of 3D printing to fruition. The book features contributions of prominent female engineers, scientists, business and technology leaders in additive manufacturing from academia, industry and government labs. Provides insight into women’s contributions to the field of additive manufacturing; Presents information from academia, research, government labs and industry into advances and applications in the rapidly evolving and growing field of 3D printing; Includes applications in industries such as medicine, aerospace, and automotive.
  ge additive technology center: Wohlers Report 2021 Terry T. Wohlers, Ian Campbell, Olaf Diegel, Ray Huff, Joseph Kowen, 2021
  ge additive technology center: User's Guide to Rapid Prototyping Todd Grimm, 2004 This book provides a baseline of rapid prototyping technologies to guide users and business leaders through the evaluation, justification, and implementation process. Rapid prototyping is a powerful tool for design, engineering and manufacturing, and is used in nearly every industry that manufactures mechanical components. This book fills the knowledge gap for the industry novice through an in-depth analysis of the various rapid prototyping technologies and processes. It also covers the technology's strengths, limitations, benefits and associated costs to aid the decision making process. Also included are comparisons to other processes such as CNC machining. In an age where better, faster, cheaper is the mantra for product development, this book offers invaluable information that will help you decide if rapid prototyping is the right tool to solve your specific design and manufacturing challenges.
  ge additive technology center: Science, Technology and Applications of Metals in Additive Manufacturing Bhaskar Dutta, Sudarsanam Babu, Bradley H. Jared, 2019-08-15 Science, Technology and Applications of Metal Additive Manufacturing provides a holistic picture of metal Additive Manufacturing (AM) that encompasses the science, technology and applications for the use of metal AM. Users will find design aspects, various metal AM technologies commercially available, a focus on merits and demerits, implications for qualification and certification, applications, cost modeling of AM, and future directions. This book serves as an educational guide, providing a holistic picture of metal AM that encompasses science, technology and applications for the real-life use of metal AM. - Includes an overall understanding of metal additive manufacturing, Including steps involved (process flow) - Discusses available commercial metal AM technologies and their relative strengths and weaknesses - Reviews the process of qualification of AM parts, various applications, cost modeling, and the future directions of metal AM
  ge additive technology center: Predictive Theoretical and Computational Approaches for Additive Manufacturing National Academies of Sciences, Engineering, and Medicine, Policy and Global Affairs, Board on International Scientific Organizations, U.S. National Committee on Theoretical and Applied Mechanics, 2016-12-21 Additive manufacturing (AM) methods have great potential for promoting transformative research in many fields across the vast spectrum of engineering and materials science. AM is one of the leading forms of advanced manufacturing which enables direct computer-aided design (CAD) to part production without part-specific tooling. In October 2015 the National Academies of Sciences, Engineering, and Medicine convened a workshop of experts from diverse communities to examine predictive theoretical and computational approaches for various AM technologies. While experimental workshops in AM have been held in the past, this workshop uniquely focused on theoretical and computational approaches and involved areas such as simulation-based engineering and science, integrated computational materials engineering, mechanics, materials science, manufacturing processes, and other specialized areas. This publication summarizes the presentations and discussions from the workshop.
  ge additive technology center: Additive Manufacturing of Metals: The Technology, Materials, Design and Production Li Yang, Keng Hsu, Brian Baughman, Donald Godfrey, Francisco Medina, Mamballykalathil Menon, Soeren Wiener, 2017-05-11 This book offers a unique guide to the three-dimensional (3D) printing of metals. It covers various aspects of additive, subtractive, and joining processes used to form three-dimensional parts with applications ranging from prototyping to production. Examining a variety of manufacturing technologies and their ability to produce both prototypes and functional production-quality parts, the individual chapters address metal components and discuss some of the important research challenges associated with the use of these technologies. As well as exploring the latest technologies currently under development, the book features unique sections on electron beam melting technology, material lifting, and the importance this science has in the engineering context. Presenting unique real-life case studies from industry, this book is also the first to offer the perspective of engineers who work in the field of aerospace and transportation systems, and who design components and manufacturing networks. Written by the leading experts in this field at universities and in industry, it provides a comprehensive textbook for students and an invaluable guide for practitioners
  ge additive technology center: Metallic Microlattice Structures Robert Mines, 2019-03-21 This work reviews the current state of the art in metallic microlattice structures, manufactured using the additive manufacturing processes of selective laser melting, electron beam melting, binder jetting and photopolymer wave guides. The emphasis is on structural performance (stiffness, strength and collapse). The field of additively manufactured metallic microlattice structures is fast changing and wide ranging, and is being driven by developments in manufacturing processes. This book takes a number of specific structural applications, viz. sandwich beams and panels, and energy absorbers, and a number of conventional metallic materials, and discusses the use of additive manufactured metallic microlattice structures to improve and enhance these structural performances. Structural performances considered includes such non linear effects as plasticity, material rupture, elastic and plastic instabilities, and impact loading. The specific discussions are put into the context of wider issues, such as the effects of realisation processes, the effects of structural scale, use of sophisticated analysis and synthesis methodologies, and the application of existing (conventional) structural theories. In this way, the specific discussions are put into the context of the emerging general fields of Architectured (Architected) Materials and Mechanical Metamaterials.
  ge additive technology center: Advanced Technologies for Gas Turbines National Academies of Sciences, Engineering, and Medicine, Division on Engineering and Physical Sciences, Aeronautics and Space Engineering Board, Committee on Advanced Technologies for Gas Turbines, 2020-04-19 Leadership in gas turbine technologies is of continuing importance as the value of gas turbine production is projected to grow substantially by 2030 and beyond. Power generation, aviation, and the oil and gas industries rely on advanced technologies for gas turbines. Market trends including world demographics, energy security and resilience, decarbonization, and customer profiles are rapidly changing and influencing the future of these industries and gas turbine technologies. Technology trends that define the technological environment in which gas turbine research and development will take place are also changing - including inexpensive, large scale computational capabilities, highly autonomous systems, additive manufacturing, and cybersecurity. It is important to evaluate how these changes influence the gas turbine industry and how to manage these changes moving forward. Advanced Technologies for Gas Turbines identifies high-priority opportunities for improving and creating advanced technologies that can be introduced into the design and manufacture of gas turbines to enhance their performance. The goals of this report are to assess the 2030 gas turbine global landscape via analysis of global leadership, market trends, and technology trends that impact gas turbine applications, develop a prioritization process, define high-priority research goals, identify high-priority research areas and topics to achieve the specified goals, and direct future research. Findings and recommendations from this report are important in guiding research within the gas turbine industry and advancing electrical power generation, commercial and military aviation, and oil and gas production.
  ge additive technology center: Metal Additive Manufacturing Dyuti Sarker, Ehsan Toyserkani, Osezua Obehi Ibhadode, Farzad Liravi, Paola Russo, Katayoon Taherkhani, 2021-10-26 METAL ADDITIVE MANUFACTURING A comprehensive review of additive manufacturing processes for metallic structures Additive Manufacturing (AM)—also commonly referred to as 3D printing—builds three-dimensional objects by adding materials layer by layer. Recent years have seen unprecedented investment in additive manufacturing research and development by governments and corporations worldwide. This technology has the potential to replace many conventional manufacturing processes, enable the development of new industry practices, and transform the entire manufacturing enterprise. Metal Additive Manufacturing provides an up-to-date review of all essential physics of metal additive manufacturing techniques with emphasis on both laser-based and non-laser-based additive manufacturing processes. This comprehensive volume covers fundamental processes and equipment, governing physics and modelling, design and topology optimization, and more. The text adresses introductory, intermediate, and advanced topics ranging from basic additive manufacturing process classification to practical and material design aspects of additive manufacturability. Written by a panel of expert authors in the field, this authoritative resource: Provides a thorough analysis of AM processes and their theoretical foundations Explains the classification, advantages, and applications of AM processes Describes the equipment required for different AM processes for metallic structures, including laser technologies, positioning devices, feeder and spreader mechanisms, and CAD software Discusses the opportunities, challenges, and current and emerging trends within the field Covers practical considerations, including design for AM, safety, quality assurance, automation, and real-time control of AM processes Includes illustrative cases studies and numerous figures and tables Featuring material drawn from the lead author’s research and professional experience on laser additive manufacturing, Metal Additive Manufacturing is an important source for manufacturing professionals, research and development engineers in the additive industry, and students and researchers involved in mechanical, mechatronics, automatic control, and materials engineering and science.
  ge additive technology center: Data-Driven Modeling for Additive Manufacturing of Metals National Academies of Sciences, Engineering, and Medicine, Division on Engineering and Physical Sciences, National Materials and Manufacturing Board, Board on Mathematical Sciences and Analytics, 2019-10-09 Additive manufacturing (AM) is the process in which a three-dimensional object is built by adding subsequent layers of materials. AM enables novel material compositions and shapes, often without the need for specialized tooling. This technology has the potential to revolutionize how mechanical parts are created, tested, and certified. However, successful real-time AM design requires the integration of complex systems and often necessitates expertise across domains. Simulation-based design approaches, such as those applied in engineering product design and material design, have the potential to improve AM predictive modeling capabilities, particularly when combined with existing knowledge of the underlying mechanics. These predictive models have the potential to reduce the cost of and time for concept-to-final-product development and can be used to supplement experimental tests. The National Academies convened a workshop on October 24-26, 2018 to discuss the frontiers of mechanistic data-driven modeling for AM of metals. Topics of discussion included measuring and modeling process monitoring and control, developing models to represent microstructure evolution, alloy design, and part suitability, modeling phases of process and machine design, and accelerating product and process qualification and certification. These topics then led to the assessment of short-, immediate-, and long-term challenges in AM. This publication summarizes the presentations and discussions from the workshop.
  ge additive technology center: Systems Engineering in the Fourth Industrial Revolution Ron S. Kenett, Robert S. Swarz, Avigdor Zonnenshain, 2019-12-24 An up-to-date guide for using massive amounts of data and novel technologies to design, build, and maintain better systems engineering Systems Engineering in the Fourth Industrial Revolution: Big Data, Novel Technologies, and Modern Systems Engineering offers a guide to the recent changes in systems engineering prompted by the current challenging and innovative industrial environment called the Fourth Industrial Revolution—INDUSTRY 4.0. This book contains advanced models, innovative practices, and state-of-the-art research findings on systems engineering. The contributors, an international panel of experts on the topic, explore the key elements in systems engineering that have shifted towards data collection and analytics, available and used in the design and development of systems and also in the later life-cycle stages of use and retirement. The contributors address the issues in a system in which the system involves data in its operation, contrasting with earlier approaches in which data, models, and algorithms were less involved in the function of the system. The book covers a wide range of topics including five systems engineering domains: systems engineering and systems thinking; systems software and process engineering; the digital factory; reliability and maintainability modeling and analytics; and organizational aspects of systems engineering. This important resource: Presents new and advanced approaches, methodologies, and tools for designing, testing, deploying, and maintaining advanced complex systems Explores effective evidence-based risk management practices Describes an integrated approach to safety, reliability, and cyber security based on system theory Discusses entrepreneurship as a multidisciplinary system Emphasizes technical merits of systems engineering concepts by providing technical models Written for systems engineers, Systems Engineering in the Fourth Industrial Revolution offers an up-to-date resource that contains the best practices and most recent research on the topic of systems engineering.
  ge additive technology center: A Spirit of Service John Norberg, 2024-12-01 A Spirit of Service: Purdue University and the United States Military is a richly illustrated, comprehensive look at the intersection of this great land-grant university and the US military since classes first began in 1874. Spearheaded by the Purdue University College of Engineering in recognition of its 150th anniversary, this book examines how Purdue Boilermakers have played a consequential role in defending democracy, freedom, and independence in times of war and great duress. Pioneering Purdue contributions include more than one hundred faculty working on the Manhattan Project, learning how to better cool machine gun barrels, and making radar practical—all during World War II—as well as the transition from vacuum tubes to semiconductors, Dorothy Stratton advancing the role of women in the military, the founding of the National Society of Black Engineers, the first School of Engineering Education, the first university airport, and, most famously, Neil Armstrong, a US Navy officer and Purdue alumnus, and the first human to set foot on the moon. Today Purdue is at the forefront of drones, hypersonics, energetics, artificial intelligence, space exploration, cybersecurity, semiconductors, and much more. In fact, approximately one-third of US spaceflights have included a Boilermaker astronaut, and many of those alumni served in the military. This large number of astronauts partially stems from a Purdue–Air Force Academy program to provide advanced degrees to graduating officers. A Spirit of Service tells the stories of men and women who lived this history, from ROTC students to a Medal of Honor recipient, from soldiers at the front during the Great War to a man who witnessed the December 7, 1941 attack on Pearl Harbor, from a pilot who led thousands of planes in bombing missions over Germany during World War II to military astronauts, from trailblazing female officers and pilots to twenty-first-century teachers and researchers who are creating the future. This volume records the stories of Purdue men and women whose patriotism, leadership, and heroism have preserved life, liberty, and the pursuit of happiness for generations of Americans—past, present, and future.
  ge additive technology center: 3D Printing and Additive Manufacturing Technologies L. Jyothish Kumar, Pulak M. Pandey, David Ian Wimpenny, 2018-06-07 This book presents a selection of papers on advanced technologies for 3D printing and additive manufacturing, and demonstrates how these technologies have changed the face of direct, digital technologies for the rapid production of models, prototypes and patterns. Because of their wide range of applications, 3D printing and additive manufacturing technologies have sparked a powerful new industrial revolution in the field of manufacturing. The evolution of 3D printing and additive manufacturing technologies has changed design, engineering and manufacturing processes across such diverse industries as consumer products, aerospace, medical devices and automotive engineering. This book will help designers, R&D personnel, and practicing engineers grasp the latest developments in the field of 3D Printing and Additive Manufacturing.
  ge additive technology center: Manufacturing Process Selection Handbook K. G. Swift, J. D. Booker, 2013-02-15 Manufacturing Process Selection Handbook provides engineers and designers with process knowledge and the essential technological and cost data to guide the selection of manufacturing processes early in the product development cycle. Building on content from the authors' earlier introductory Process Selection guide, this expanded handbook begins with the challenges and benefits of identifying manufacturing processes in the design phase and appropriate strategies for process selection. The bulk of the book is then dedicated to concise coverage of different manufacturing processes, providing a quick reference guide for easy comparison and informed decision making. For each process examined, the book considers key factors driving selection decisions, including: - Basic process descriptions with simple diagrams to illustrate - Notes on material suitability - Notes on available process variations - Economic considerations such as costs and production rates - Typical applications and product examples - Notes on design aspects and quality issues Providing a quick and effective reference for the informed selection of manufacturing processes with suitable characteristics and capabilities, Manufacturing Process Selection Handbook is intended to quickly develop or refresh your experience of selecting optimal processes and costing design alternatives in the context of concurrent engineering. It is an ideal reference for those working in mechanical design across a variety of industries and a valuable learning resource for advanced students undertaking design modules and projects as part of broader engineering programs. - Provides manufacturing process information maps (PRIMAs) provide detailed information on the characteristics and capabilities of 65 processes in a standard format - Includes process capability charts detailing the processing tolerance ranges for key material types - Offers detailed methods for estimating costs, both at the component and assembly level
  ge additive technology center: Rapid Prototyping & Manufacturing Paul Francis Jacobs, 1992 This turnkey technology source provides an introduction to rapid prototyping and manufacturing (RP&M) with emphasis on Stereolithography which represents the majority of all rapid prototyping systems currently in place. The content is based on theory, analysis and experiment with extensive test data, including select case studies from the automotive, simultaneous engineering, and medical sectors.
  ge additive technology center: Additive Manufacturing – Developments in Training and Education Eujin Pei, Mario Monzón, Alain Bernard, 2018-06-30 This book provides an overview of training and teaching methods, as well as education strategies, for Additive Manufacturing (AM) and its application in different business sectors. It presents real-world applications and case studies to demonstrate the key practical and theoretical fundamentals of AM training, written by international experts from the field. Additive Manufacturing is a rapidly developing technology, and having a well-trained workforce is essential. Accordingly, readers are introduced to new training approaches and recent breakthroughs that can facilitate and accelerate the design, application and implementation of AM. The book’s contributors discuss many topics to provide readers a fundamental grasp of AM, including: · collaboration among educational bodies, and between industry and governments; · strategies for implementing AM training; · new teaching methods; · training programs that provide alternative employment choices; · the need for certification by professional bodies; and · promoting awareness of AM in society. This book offers an excellent source of information for researchers and industrial engineers who are interested in expanding their AM expertise, and learning how to implement it. It will also be of interest to readers who want to learn about the practicalities of adopting training and teaching for AM.
  ge additive technology center: Frontiers of Materials Research National Academies of Sciences, Engineering, and Medicine, Division on Engineering and Physical Sciences, Board on Physics and Astronomy, National Materials and Manufacturing Board, Committee on Frontiers of Materials Research: A Decadal Survey, 2019-09-12 Modern materials science builds on knowledge from physics, chemistry, biology, mathematics, computer and data science, and engineering sciences to enable us to understand, control, and expand the material world. Although it is anchored in inquiry-based fundamental science, materials research is strongly focused on discovering and producing reliable and economically viable materials, from super alloys to polymer composites, that are used in a vast array of products essential to today's societies and economies. Frontiers of Materials Research: A Decadal Survey is aimed at documenting the status and promising future directions of materials research in the United States in the context of similar efforts worldwide. This third decadal survey in materials research reviews the progress and achievements in materials research and changes in the materials research landscape over the last decade; research opportunities for investment for the period 2020-2030; impacts that materials research has had and is expected to have on emerging technologies, national needs, and science; and challenges the enterprise may face over the next decade.
  ge additive technology center: 3D Printing, Intellectual Property and Innovation Rosa Maria Ballardini, Marcus Norrgård, Jouni Partanen, 2016-04-24 3D printing (or, more correctly, additive manufacturing) is the general term for those software-driven technologies that create physical objects by successive layering of materials. Due to recent advances in the quality of objects produced and to lower processing costs, the increasing dispersion and availability of these technologies have major implications not only for manufacturers and distributors but also for users and consumers, raising unprecedented challenges for intellectual property protection and enforcement. This is the first and only book to discuss 3D printing technology from a multidisciplinary perspective that encompasses law, economics, engineering, technology, and policy. Originating in a collaborative study spearheaded by the Hanken School of Economics, the Aalto University and the University of Helsinki in Finland and engaging an international consortium of legal, design and production engineering experts, with substantial contributions from industrial partners, the book fully exposes and examines the fundamental questions related to the nexus of intellectual property law, emerging technologies, 3D printing, business innovation, and policy issues. Twenty-five legal, technical, and business experts contribute sixteen peer-reviewed chapters, each focusing on a specific area, that collectively evaluate the tensions created by 3D printing technology in the context of the global economy. The topics covered include: • current and future business models for 3D printing applications; • intellectual property rights in 3D printing; • essential patents and technical standards in additive manufacturing; • patent and bioprinting; • private use and 3D printing; • copyright licences on the user-generated content (UGC) in 3D printing; • copyright implications of 3D scanning; and • non-traditional trademark infringement in the 3D printing context. Specific industrial applications – including aeronautics, automotive industries, construction equipment, toy and jewellery making, medical devices, tissue engineering, and regenerative medicine – are all touched upon in the course of analyses. In a legal context, the central focus is on the technology’s implications for US and European intellectual property law, anchored in a comparison of relevant laws and cases in several legal systems. This work is a matchless resource for patent, copyright, and trademark attorneys and other corporate counsel, innovation economists, industrial designers and engineers, and academics and policymakers concerned with this complex topic.
  ge additive technology center: Additive Manufacturing of Titanium Alloys Bhaskar Dutta, Francis Froes, 2016-06-17 Additive Manufacturing of Titanium Alloys: State of the Art, Challenges and Opportunities provides alternative methods to the conventional approach for the fabrication of the majority of titanium components produced via the cast and wrought technique, a process which involves a considerable amount of expensive machining. In contrast, the Additive Manufacturing (AM) approach allows very close to final part configuration to be directly fabricated minimizing machining cost, while achieving mechanical properties at least at cast and wrought levels. In addition, the book offers the benefit of significant savings through better material utilization for parts with high buy-to-fly ratios (ratio of initial stock mass to final part mass before and after manufacturing). As titanium additive manufacturing has attracted considerable attention from both academicians and technologists, and has already led to many applications in aerospace and terrestrial systems, as well as in the medical industry, this book explores the unique shape making capabilities and attractive mechanical properties which make titanium an ideal material for the additive manufacturing industry. - Includes coverage of the fundamentals of microstructural evolution in titanium alloys - Introduces readers to the various Additive Manufacturing Technologies, such as Powder Bed Fusion (PBF) and Directed Energy Deposition (DED) - Looks at the future of Titanium Additive Manufacturing - Provides a complete review of the science, technology, and applications of Titanium Additive Manufacturing (AM)
  ge additive technology center: Solid-State Metal Additive Manufacturing Hang Z. Yu, Nihan Tuncer, Zhili Feng, 2024-04-16 Solid-State Metal Additive Manufacturing Timely summary of state-of-the-art solid-state metal 3D printing technologies, focusing on fundamental processing science and industrial applications Solid-State Metal Additive Manufacturing: Physics, Processes, Mechanical Properties, and Applications provides detailed and in-depth discussion on different solid-state metal additive manufacturing processes and applications, presenting associated methods, mechanisms and models, and unique benefits, as well as a detailed comparison to traditional fusion-based metal additive manufacturing. The text begins with a high-level overview of solid-state metal additive manufacturing with an emphasis on its position within the metal additive manufacturing spectrum and its potential for meeting specific demands in the aerospace, automotive, and defense industries. Next, each of the four categories of solid-state additive technologies—cold spray additive manufacturing, additive friction stir deposition, ultrasonic additive manufacturing, and sintering-based processes—is discussed in depth, reviewing advances in processing science, metallurgical science, and innovative applications. Finally, the future directions of these solid-state processes, especially the material innovation and artificial intelligence aspects, are discussed. Sample topics covered in Solid-State Metal Additive Manufacturing include: Physical processes and bonding mechanisms in impact-induced bonding and microstructures and microstructural evolution in cold sprayed materials Process fundamentals, dynamic microstructure evolution, and potential industrial applications of additive friction stir deposition Microstructural and mechanical characterization and industrial applications of ultrasonic additive manufacturing Principles of solid-state sintering, binder jetting-based metal printing, and sintering-based metal additive manufacturing methods for magnetic materials Critical issues inherent to melting and solidification, such as porosity, high residual stress, cast microstructure, anisotropic mechanical properties, and hot cracking Solid-State Metal Additive Manufacturing is an essential reference on the subject for academic researchers in materials science, mechanical, and biomedicine, as well as professional engineers in various manufacturing industries, especially those involved in building new additive technologies.
  ge additive technology center: Come and Take It Cody Wilson, 2017-06-06 Cody Wilson, a self-described crypto-anarchist and rogue thinker, combines the story of the production of the first ever 3D printable gun with a philosophical manifesto that gets to the heart of the twenty-first century debate over the freedom of information and ideas. Reminiscent of Steal This Book by Abbie Hoffman, Cody Wilson has written a philosophical guide through the digital revolution. Deflecting interference from the State Department and the Bureau of Alcohol, Tobacco, Firearms and Explosives, the story of Defense Distributed -- where Wilson's employees work against all odds to defend liberty and the right to access arms through the production of 3D printed firearms -- takes us across continents, into dusty warehouses and high rise condominiums, through television studios, to the Texas desert, and beyond.
  ge additive technology center: The Great Disruption Rick Smith, Mitch Free, 2016-10-11 The Great Disruption reveals how 3D printing manufacturing will transform the world in the same way that Henry Ford’s Model T upended transportation or Gutenberg’s printing press started an information revolution. It traces both the impact of this disruption as it rapidly spreads around the world and affects every kind of industry imaginable, while detailing specific steps that can and should be taken right now to prepare. The 3D manufacturing revolution is pervasive and growing rapidly, and includes such major breakthroughs as: - A machine in Amsterdam that can 3D print a bridge over a canal underneath it using no support or scaffolding - A global auto manufacturer designing a car that automatically changes its physical shape and structure in response to current driving conditions - A scientist in London experimenting with 3D printing material that is two hundred times stronger than steel - A Harvard researcher who is 3D printing batteries the size of a single grain of sand - An astronaut who is printing replacement parts in space—and a shipping executive who is doing the same thing on cargo ships In exploring this radical future, The Great Disruption shows how we can position ourselves to successfully navigate this historic shift to our greatest benefit.
  ge additive technology center: Additive Manufacturing Applications for Metals and Composites Balasubramanian, K.R., Senthilkumar, V., 2020-06-19 Additive manufacturing (AM) of metals and composites using laser energy, direct energy deposition, electron beam methods, and wire arc melting have recently gained importance due to their advantages in fabricating the complex structure. Today, it has become possible to reliably manufacture dense parts with certain AM processes for many materials, including steels, aluminum and titanium alloys, superalloys, metal-based composites, and ceramic matrix composites. In the near future, the AM material variety will most likely grow further, with high-performance materials such as intermetallic compounds and high entropy alloys already under investigation. Additive Manufacturing Applications for Metals and Composites is a pivotal reference source that provides vital research on advancing methods and technological developments within additive manufacturing practices. Special attention is paid to the material design of additive manufacturing of parts, the choice of feedstock materials, the metallurgical behavior and synthesis principle during the manufacturing process, and the resulted microstructures and properties, as well as the relationship between these factors. While highlighting topics such as numerical modeling, intermetallic compounds, and statistical techniques, this publication is ideally designed for students, engineers, researchers, manufacturers, technologists, academicians, practitioners, scholars, and educators.
  ge additive technology center: 3D Printing for Energy Applications Albert Tarancón, Vincenzo Esposito, 2021-03-03 3D PRINTING FOR ENERGY APPLICATIONS Explore current and future perspectives of 3D printing for the fabrication of high value-added complex devices 3D Printing for Energy Applications delivers an insightful and cutting-edge exploration of the applications of 3D printing to the fabrication of complex devices in the energy sector. The book covers aspects related to additive manufacturing of functional materials with applicability in the energy sector. It reviews both the technology of printable materials and 3D printing strategies itself, and its use in energy devices or systems. Split into three sections, the book covers the 3D printing of functional materials before delving into the 3D printing of energy devices. It closes with printing challenges in the production of complex objects. It also presents an interesting perspective on the future of 3D printing of complex devices. Readers will also benefit from the inclusion of: A thorough introduction to 3D printing of functional materials, including metals, ceramics, and composites An exploration of 3D printing challenges for production of complex objects, including computational design, multimaterials, tailoring AM components, and volumetric additive manufacturing Practical discussions of 3D printing of energy devices, including batteries, supercaps, solar panels, fuel cells, turbomachinery, thermoelectrics, and CCUS Perfect for materials scientists, 3D Printing for Energy Applications will also earn a place in the libraries of graduate students in engineering, chemistry, and material sciences seeking a one-stop reference for current and future perspectives on 3D printing of high value-added complex devices.
  ge additive technology center: Lamination Charles Osheku, 2018-03-21 The field of lamination has developed significantly over the past 5000 years. Nowadays, we have a humongous array of structures and technological systems where composite laminates are applied. From the viewpoint of structural mechanics, an interface slip motion between two laminated structures, such as beam plate and plate in the presence of dry friction, can be utilized for slip damping systems. By scientific definition, slip damping is a mechanism exploited for dissipating noise and vibration energy in machine structures and systems. Researchers have developed several mathematical models for noise dissipation, minimization and complete vibration isolation laminated mechanisms. The purpose of this book is to describe new concepts of producing laminated structures and possible modern engineering applications.
  ge additive technology center: TMS 2020 149th Annual Meeting & Exhibition Supplemental Proceedings The Minerals, Metals & Materials Society, 2020-02-13 This collection presents papers from the 149th Annual Meeting & Exhibition of The Minerals, Metals & Materials Society.
  ge additive technology center: Revolutionizing World Trade Kati Suominen, 2019-11-19 Almost 15 years ago, in The World is Flat, Thomas Friedman popularized the latest wave of globalization as a world of giant corporate supply chains that tripled world trade between 1990 and 2010. Major corporations such as Apple, Dell, and GE offshored manufacturing to low-cost economies; China became the world's factory, mass-producing and exporting computers and gadgets to Western shoppers. This paradigm of globalization has dominated global trade policy-making and guided hundreds of billions of dollars in business investments and development spending for almost three decades. But we are now on the cusp of a new era. Revolutionizing World Trade argues that technologies such as ecommerce, 3D printing, 5G, the Cloud, blockchain, and artificial intelligence are revolutionizing the economics of trade and global production, empowering businesses of all sizes to make, move, and market products and services worldwide and with greater ease than ever before. The twin forces of digitization and trade are changing the patterns, players, politics, and possibilities of world trade, and can reinvigorate global productivity growth. However, new policy challenges and old regulatory frameworks are stifling the promise of this most dynamic, prosperous, and inclusive wave of globalization yet. This book uses new empirical evidence and policy experiences to examine the clash between emerging possibilities in world trade and outdated policies and institutions, offering several policy recommendations for navigating these obstacles to catalyze growth and development around the world.
  ge additive technology center: Fundamentals of Laser Powder Bed Fusion of Metals Igor Yadroitsev, Ina Yadroitsava, Anton Du Plessis, Eric MacDonald, 2021-05-23 Laser powder bed fusion of metals is a technology that makes use of a laser beam to selectively melt metal powder layer-by-layer in order to fabricate complex geometries in high performance materials. The technology is currently transforming aerospace and biomedical manufacturing and its adoption is widening into other industries as well, including automotive, energy, and traditional manufacturing. With an increase in design freedom brought to bear by additive manufacturing, new opportunities are emerging for designs not possible previously and in material systems that now provide sufficient performance to be qualified in end-use mission-critical applications. After decades of research and development, laser powder bed fusion is now enabling a new era of digitally driven manufacturing. Fundamentals of Laser Powder Bed Fusion of Metals will provide the fundamental principles in a broad range of topics relating to metal laser powder bed fusion. The target audience includes new users, focusing on graduate and undergraduate students; however, this book can also serve as a reference for experienced users as well, including senior researchers and engineers in industry. The current best practices are discussed in detail, as well as the limitations, challenges, and potential research and commercial opportunities moving forward. - Presents laser powder bed fusion fundamentals, as well as their inherent challenges - Provides an up-to-date summary of this advancing technology and its potential - Provides a comprehensive textbook for universities, as well as a reference for industry - Acts as quick-reference guide
  ge additive technology center: The Fourth Industrial Revolution Klaus Schwab, 2017-01-03 World-renowned economist Klaus Schwab, Founder and Executive Chairman of the World Economic Forum, explains that we have an opportunity to shape the fourth industrial revolu­tion, which will fundamentally alter how we live and work. Schwab argues that this revolution is different in scale, scope and complexity from any that have come before. Characterized by a range of new technologies that are fusing the physical, digital and biological worlds, the developments are affecting all disciplines, economies, industries and governments, and even challenging ideas about what it means to be human. Artificial intelligence is already all around us, from supercomputers, drones and virtual assistants to 3D printing, DNA sequencing, smart thermostats, wear­able sensors and microchips smaller than a grain of sand. But this is just the beginning: nanomaterials 200 times stronger than steel and a million times thinner than a strand of hair and the first transplant of a 3D printed liver are already in development. Imagine “smart factories” in which global systems of manu­facturing are coordinated virtually, or implantable mobile phones made of biosynthetic materials. The fourth industrial revolution, says Schwab, is more significant, and its ramifications more profound, than in any prior period of human history. He outlines the key technologies driving this revolution and discusses the major impacts expected on government, business, civil society and individu­als. Schwab also offers bold ideas on how to harness these changes and shape a better future—one in which technology empowers people rather than replaces them; progress serves society rather than disrupts it; and in which innovators respect moral and ethical boundaries rather than cross them. We all have the opportunity to contribute to developing new frame­works that advance progress.
  ge additive technology center: The Image of the City Kevin Lynch, 1964-06-15 The classic work on the evaluation of city form. What does the city's form actually mean to the people who live there? What can the city planner do to make the city's image more vivid and memorable to the city dweller? To answer these questions, Mr. Lynch, supported by studies of Los Angeles, Boston, and Jersey City, formulates a new criterion—imageability—and shows its potential value as a guide for the building and rebuilding of cities. The wide scope of this study leads to an original and vital method for the evaluation of city form. The architect, the planner, and certainly the city dweller will all want to read this book.
  ge additive technology center: Metal Additive Manufacturing Robert J. Lancaster, Alessandro Fortunato, Stanislav Kolisnychenko, 2020-12-01 Aggregated Book
  ge additive technology center: Hot Seat Jeff Immelt, 2022-02-15 A fascinating and candid memoir about successful leadership from the former CEO of General Electric, named one of the “World’s Best CEOs” three times by Barron’s, and the hard-won lessons he learned from his experience leading GE immediately after 9/11, through the devastating 2008–09 financial crisis, and into an increasingly globalized world. In September 2001, Jeff Immelt replaced the most famous CEO in history, Jack Welch, at the helm of General Electric. Less than a week into his tenure, the 9/11 terrorist attacks shook the nation, and the company, to its core. GE was connected to nearly every part of the tragedy—GE-financed planes powered by GE-manufactured engines had just destroyed real estate that was insured by GE-issued policies. Facing an unprecedented situation, Immelt knew his response would set the tone for businesses everywhere that looked to GE—one of America’s biggest and most-heralded corporations—for direction. No pressure. Over the next sixteen years, Immelt would lead GE through many more dire moments, from the 2008–09 Global Financial Crisis to the 2011 meltdown of Fukushima’s nuclear reactors, which were designed by GE. But Immelt’s biggest challenge was inherited: Welch had handed over a company that had great people, but was short on innovation. Immelt set out to change GE’s focus by making it more global, more rooted in technology, and more diverse. But the stock market rarely rewarded his efforts, and GE struggled. In Hot Seat, Immelt offers a rigorous and raw interrogation of himself and his tenure, detailing for the first time his proudest moments and his biggest mistakes. The most crucial component of leadership, he writes, is the willingness to make decisions. But knowing what to do is a thousand times easier than knowing when to do it. Perseverance, combined with clear communication, can ensure progress, if not perfection, he says. That won’t protect any CEO from second-guessing, but Immelt explains how he’s pushed through even the most withering criticism: by staying focused on his team and the goals they tried to achieve. As the business world continues to be rocked by stunning economic upheaval, Hot Seat “takes you into the office, head, and heart of the man who became CEO of GE on the eve of 9/11, and then led the iconic behemoth for sixteen fascinating, and often turbulent, years. A handbook on leadership—and life” (Stanley A. McChrystal, General, US Army [Retired], CEO and Founder, McChrystal Group).
  ge additive technology center: Biosynthetic Polymers for Medical Applications Laura Poole-Warren, Penny Martens, Rylie Green, 2015-11-23 Biosynthetic Polymers for Medical Applications provides the latest information on biopolymers, the polymers that have been produced from living organisms and are biodegradable in nature. These advanced materials are becoming increasingly important for medical applications due to their favorable properties, such as degradability and biocompatibility. This important book provides readers with a thorough review of the fundamentals of biosynthetic polymers and their applications. Part One covers the fundamentals of biosynthetic polymers for medical applications, while Part Two explores biosynthetic polymer coatings and surface modification. Subsequent sections discuss biosynthetic polymers for tissue engineering applications and how to conduct polymers for medical applications. - Comprehensively covers all major medical applications of biosynthetic polymers - Provides an overview of non-degradable and biodegradable biosynthetic polymers and their medical uses - Presents a specific focus on coatings and surface modifications, biosynthetic hydrogels, particulate systems for gene and drug delivery, and conjugated conducting polymers
  ge additive technology center: Additive Manufacturing Technologies Ian Gibson, David Rosen, Brent Stucker, Mahyar Khorasani, 2020-11-10 This textbook covers in detail digitally-driven methods for adding materials together to form parts. A conceptual overview of additive manufacturing is given, beginning with the fundamentals so that readers can get up to speed quickly. Well-established and emerging applications such as rapid prototyping, micro-scale manufacturing, medical applications, aerospace manufacturing, rapid tooling and direct digital manufacturing are also discussed. This book provides a comprehensive overview of additive manufacturing technologies as well as relevant supporting technologies such as software systems, vacuum casting, investment casting, plating, infiltration and other systems. Reflects recent developments and trends and adheres to the ASTM, SI and other standards; Includes chapters on topics that span the entire AM value chain, including process selection, software, post-processing, industrial drivers for AM, and more; Provides a broad range of technical questions to ensure comprehensive understanding of the concepts covered.
  ge additive technology center: Additive Manufacturing Handbook Adedeji B. Badiru, Vhance V. Valencia, Carl R. Hartsfield, David Liu, 2017-05-19 Theoretical and practical interests in additive manufacturing (3D printing) are growing rapidly. Engineers and engineering companies now use 3D printing to make prototypes of products before going for full production. In an educational setting faculty, researchers, and students leverage 3D printing to enhance project-related products. Additive Manufacturing Handbook focuses on product design for the defense industry, which affects virtually every other industry. Thus, the handbook provides a wide range of benefits to all segments of business, industry, and government. Manufacturing has undergone a major advancement and technology shift in recent years.
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Jun 20, 2023 · Mike Kauffman General Electric Company - VP of Supply Chain -- GE Aerospace Mohamed Ali General Electric Company - VP of Engineering -- GE Aerospace Riccardo …

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Scott.Gold@ge.com GE Aviation, Additive Technology Center, 9701 Windisch Rd., St 100, West Chester, OH 45069, USA Abstract Additive manufacturing and specifically metal selective laser …

2018 Annual Report - GE
1 Including CFM International, a 50-50 joint venture between Snecma (Safran) and GE. Our team at the Additive Customer Experience Center in Pennsylvania discusses the next step in the …

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The additive manufacturing process is currently being used by Daimler’s truck unit creating replacement brackets for truck diesel engines. ... lightweight filament using a novel active …

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The additive journey
Arcam Q10Plus machine at GE Aviation’s Additive Technology Center. These huge growth rates are represented in business leaders’ sentiments toward additive according to the 2018 GE …

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Imagination at work. Arcam and SLM Solutions acquisitions September 6, 2016 CAUTION CONCERNING FORWARD -LOOKING STATEMENTS : This document contains "forward …

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GE Additive Technology (China) Company Limited GENERAL CONDITIONS OF PURCHASE REV. 04.20.2020 1. Applicability and Order of Precedence 1.1. These General Conditions of …

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President & CEO, Propulsion & Additive Appointed May 2020 Riccardo joined GE in 1996 covering different technical and commercial roles before being assigned to Asia in 2000 as GE …

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– Demonstrated by GE Aerospace as a highly reusable, high- temperature material system – High interlaminar properties compared to 2 -dimensional ACC- 6 and C/SiC – Strong GE industrial …

Kathy S. Cocus Business Development Director
May 19, 2018 · Twain Wrong - GE Reports Mark Twain allegedly claimed that when the end of the world came, he wanted to be in Cincinnati “because it’s always 20 years behind the times.” The …

Born of power and efficiency - GE
The technology and design enable fewer fan blades – 16 in the GE9X engine, as compared to 22 in the GE90 – contributing to the GE9X engine’s unprecedented bypass ratio of 10:1, as …

Binder Jet - colibriumadditive.com
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Introduction to Metal Additive Manufacturing for Aerospace
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GE Additive 9 Placeholder confidentiality disclosure. Edit or delete from master slide if not needed. If you look at the entire production process, EBM has several productivity benefits, …

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ADDITIVE MANUFACTURING INNOVATION CENTER
ADDITIVE MANUFACTURING INNOVATION CENTER A Michigan State University and Int’l Aircraft Engine Assoc. Collaboration ... SLM Solutions and GE Additive and product OEMs …

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Additive Manufacturing GE Aviation developed its ˚rst 3D-printed component, a fuel nozzle injector, in 2003. Additive manufacturing yields lighter, more durable parts than metal casting, …

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Metal Additive Manufacturing for Propulsion Applications
Criteria and Comparison Various Metal AM Processes CREDITS: AFS-D image credits to MELDTM Manufacturing, Cold spray image credits to Spee3D, EBW-DED image credits to …

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GE Additive のブランド名称変更について - Colibrium Additive
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GE Aviation overview
Note: 2017 external revenues as disclosed in GE 10-K; page does not reflect $0.2B other segment revenues (a- Reflects GE portion of CFM and EA revenue (b- 2017 external revenue CFM is a …

NATIONAL STRATEGY FOR ADDITIVE MANUFACTURING - UGC
3.1 Technology Overview Additive Manufacturing (AM) is defined as the technology that constructs a three-dimensional object from a digital 3D model or a CAD model by adding …