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Metal fabrication is a broad term referring to any process that cuts, shapes, or molds metal material into a final product. Instead of an end product being assembled from ready-made components, fabrication creates an end product from raw or semi-finished materials. There are many different fabrication manufacturing process processes and the process used depends on both the beginning metal material and the desired end product. Fabrication is used for both custom and stock products. Most custom metal fabricated products are crafted from a range of commonly used metals and their alloys. Some of the most popular metal types available for custom metal fabrication include aluminum, brass, copper, gold, iron, nickel, silver, magnesium, tin, titanium, and various grades of steel. Fabricators often start with stock metal components, such as sheet metal, metal rods, metal billets, and metal bars to create a new product. For example, an aluminum billet may be fabricated into a curved aluminum tube by using the extrusion process and then folding the tube. Specialized metal fabricators are called fab shops. Contractors, equipment manufacturers, and resellers have metal fabricators work on a variety of projects for them. Often metal fabricators bid on jobs by submitting drawings, and if they are awarded the contract, they build the project. Once a contract has been awarded, metal fabricators begin the planning stages. This involves ordering the correct materials and having a manufacturing engineer program CNC machines for the project. Some of the work may be sub-contracted out depending on the size and specialized needs of the project. Many metal fabricators specialize in specific processes or metals. Fab shops may use multiple fabrication processes to create a final product. They may also provide finishing services such as deburring, polishing, coating, and painting, to the product. Finishing differs from fabricating in that finishing is a secondary process to treat the exterior of the product, not to shape it or to create a new product.
Descripción del editor: "heet forming fundamentals are thoroughly addressed in this comprehensive reference for the practical and efficient use of sheet forming technologies. The principle variables of sheet forming-including the interactions between variables-are clearly explained, as a basic foundation for the most effective use of computer aided modeling in process and die design.Topics include stress analysis, formability criteria, tooling, and materials for sheet forming. The book also covers the latest developments in sheet metal forming technology, including servo-drive presses and their applications, and advanced cushion systems in mechanical and hydraulic presses." (ASM International).
This book is a valuable reference for the materials engineer, the manufacturing engineer, or the technician who wants a practical description of fabrication processes. Sheet metal fabrication processes are receiving greater attention and are more widely applied by the metalworking industries because of the savings in cost and material. This book compiles the proven theories and operations tested in industrial applications. Focus is on the non-chip-producing machine tools that shape metals by shearing, pressing and forming. New materials and advances in tooling are discussed, as well as the need for applied science in optimizing the operations for sheet metal fabrication processes. Examples of each of these forming processes are given, and the text also describes the mechanics of each process so that a logical decision can be made concerning the best operation for a specific result. The volume is divided into five sections each consisting of a series of chapters. The major sections cover fabricating presses, stamping and forming operations, plastics for tooling, structural shapes, and non-traditional machining. A section on definitions and terminology is also included.The book is profusely illustrated and indexed, making it easy to find references to specific forming topics. Written by an expert with 40 years of hands-on practical engineering experience, this Handbook contains the essential information you need on forming methods, machinery and the response of materials.
Covers the basics of metal fabrication processes, including primary mill fabrication, casting, bulk deformation, forming, machining, heat treatment, finishing and coating, and powder metallurgy.
Metal forming processes include bulk forming and sheet metal forming with numerous applications. This book covers some of the latest developments aspects of these processes such as numerical simulations to achieve optimum combinations and to get insight into process capability. Implementation of new technologies to improve performance based on Computer Numerical Control (CNC) technologies are also discussed, including the use of CAD/CAM/CAE techniques to enhance precision in manufacturing. Applications of AI/ML, the Internet of Things (IoT), and the role of tribological aspects in green engineering are included to suit Industry 4.0. Features: Covers latest developments in various sheet metal forming processes Discusses improvements in numerical simulation with various material models Proposes improvements by optimum combination of process parameters Includes finite element simulation of processes and formability Presents a review on techniques to produce ultra-fine-grained materials This book is aimed at graduate students, engineers, and researchers in sheet metal forming, materials processing and their applications, finite element analysis, manufacturing, and production engineering.
Briefly reviews the basic principles of metal forming but major emphasis is on the latest developments in the design of metal-forming operations and tooling. Discusses the position of metal forming in manufacturing and considers a metal-forming process as a system consisting of several interacting variables. Includes an overall review and classification of all metal-forming processes. The fundamentals of plastic deformation - metal flow, flow stress of metals and yield criteria - are discussed, as are significant practical variables of metal- forming processes such as friction, temperatures and forming machines and their characteristics. Examines approximate methods of analyzing simple forming operations, then looks at massive forming processes such as closed-die forging, hot extrusion, cold forging/ extrusion, rolling and drawing (discussion includes the prediction of stresses and load in each process and applications of computer-aided techniques). Recent developments in metal-forming technology, including CAD/CAM for die design and manufacture, are discussed, and a review of the latest trends in metal flow analysis and simulations.
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 direction 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.
Modeling of Thermo-Electro-Mechanical Manufacturing Processes with Applications in Metal Forming and Resistance Welding provides readers with a basic understanding of the fundamental ingredients in plasticity, heat transfer and electricity that are necessary to develop and proper utilize computer programs based on the finite element flow formulation. Computer implementation of a wide range of theoretical and numerical subjects related to mesh generation, contact algorithms, elasticity, anisotropic constitutive equations, solution procedures and parallelization of equation solvers is comprehensively described. Illustrated and enriched with selected examples obtained from industrial applications, Modeling of Thermo-Electro-Mechanical Manufacturing Processes with Applications in Metal Forming and Resistance Welding works to diminish the gap between the developers of finite element computer programs and the professional engineers with expertise in industrial joining technologies by metal forming and resistance welding.
Metals are still the most widely used structural materials in the manufacture of products and structures. Their properties are extremely dependent on the processes they undergo to form the final product. Successful manufacturing therefore depends on a detailed knowledge of the processing of the materials involved. This highly illustrated book provides that knowledge.Metal processing is a technical subject requiring a quantitative approach. This book illustrates this approach with real case studies derived from industry. - Real industrial case studies - Quantitative approach - Challenging student problems
The book presents a compilation of research on meso/microforming processes, and offers systematic and holistic knowledge for the physical realization of developed processes. It discusses practical applications in fabrication of meso/microscale metallic sheet-metal parts via sheet-metal meso/microforming. In addition, the book provides extensive and informative illustrations, tables, case studies, photos and figures to convey knowledge of sheet-metal meso/microforming for fabrication of meso/microscale sheet-metal products in an illustrated manner. Key Features • Presents complete analysis and discussion of micro sheet metal forming processes • Guides reader across the mechanics, failures, prediction of failures and tooling and prospective applications • Discusses definitions of multi-scaled metal forming, sheet-metal meso/microforming and the challenges in such domains • Includes meso/micro-scaled sheet-metal parts design from a micro-manufacturability perspective, process determination, tooling design, product quality analysis, insurance and control • Covers industrial application and examples