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The aim of conference is to experience exchange between scientists, designers and technologists who work at field of Materials Science and Materials Processing Technologies for Mechanical Engineering.
Increase of aerospace techniques’ weight efficiency, durability and safety is commonly determined by a structure and properties of structural materials and products made by metal forming. In particular, a large plastic strain together with the heat treatment forms a crystallography, physical, mechanical and deformation properties of billets, which hereinafter determines their behavior in metal forming processes and performance. This collection of papers based on results of the International science and technical congress on Aerospace materials plastic deformation processes. Science, technology, industry (METALDEFORM-2017, July 4-7, 2017, Samara University, Samara, Russia).
As the only comprehensive text focusing on metal shaping processes, which are still the most widely used processes in the manufacture of products and structures, Metal Shaping Processes carefully presents the fundamentals of metal shaping processes with their relevant applications. The treatment of the subject matter is adequately descriptive for those unfamiliar with the various processes and yet is sufficiently analytical for an introductory academic course in manufacturing. The text, as well as the numerous formulas and illustrations in each chapter, clearly show that shaping processes, as a part of manufacturing engineering, are a complex and interdisciplinary subject. The topics are organized and presented in such a manner that they motivate and challenge students to present technically and economically viable solutions to a wide variety of questions and problems, including product design. It is the perfect textbook for students in mechanical, industrial, and manufacturing engineering programs at both the Associate Degree and Bachelor Degree programs, as well a valuable reference for manufacturing engineers (those who design, execute and maintain the equipment and tools); process engineers (those who plan and engineer the manufacturing steps, equipment, and tooling needed in production); manufacturing managers and supervisors; product design engineers; and maintenance and reliability managers and technicians. Each chapter begins with a brief highlighted outline of the topics to be described. Carefully presents the fundamentals of the particular metal-shaping process with its relevant applications within each chapter, so that the student and teacher can clearly assess the capabilities, limitation, and potentials of the process and its competitive aspects. Features sections on product design considerations, which present guidelines on design for manufacturing in many of the chapters. Offers practical, understandable explanations, even for complex processes. Includes text entries that are coded as in an outline, with these numerical designations carried over the 320 related illustrations for easy cross-referencing. Provides a dual (ISO and USA) unit system. Contains end-of-chapter Review Questions. Includes a chapter on sheet metalworking covering cutting processes; bending process; tubes and pipe bending; deep drawing processes; other sheet metal forming process (stretch forming, spinning, rubber forming, and superplatic forming and diffusion bonding). Provides a useful die classification with 15 illustrations and description; presses for sheet metalworking; and high energy-rate forming processes. A chapter on nontraditional manufacturing process discusses such important processes as mechanical energy processes (ultrasonic machining, water jet cutting); electrochemical machining processes (electrochemical machining, electrochemical grinding); thermal energy processes (electric discharge processes, laser beam machining, electron beam machining); and chemical processes (chemical milling).
Increase of aerospace techniques' weight efficiency, durability and safety is commonly determined by a structure and properties of structural materials and products made by metal forming. In particular, a large plastic strain together with the heat treatment forms a crystallography, physical, mechanical and deformation properties of billets, which hereinafter determines their behavior in metal forming processes and performance.This collection of papers based on results of the International science and technical congress on Aerospace materials plastic deformation processes. Science, technology, industry (METALDEFORM-2017, July 4-7, 2017, Samara University, Samara, Russia).
Increase of aerospace techniques' weight efficiency, durability and safety is commonly determined by a structure and properties of structural materials and products made by metal forming. In particular, a large plastic strain together with the heat treatment forms a crystallography, physical, mechanical and deformation properties of billets, which hereinafter determines their behavior in metal forming processes and performance.This collection of papers based on results of the International science and technical congress on Aerospace materials plastic deformation processes. Science, technology, industry (METALDEFORM-2017, July 4-7, 2017, Samara University, Samara, Russia).
Advanced Machining Processes of Metallic Materials: Theory, Modelling and Applications, Second Edition, explores the metal cutting processes with regard to theory and industrial practice. Structured into three parts, the first section provides information on the fundamentals of machining, while the second and third parts include an overview of the effects of the theoretical and experimental considerations in high-level machining technology and a summary of production outputs related to part quality. In particular, topics discussed include: modern tool materials, mechanical, thermal and tribological aspects of machining, computer simulation of various process phenomena, chip control, monitoring of the cutting state, progressive and hybrid machining operations, as well as practical ways for improving machinability and generation and modeling of surface integrity. This new edition addresses the present state and future development of machining technologies, and includes expanded coverage on machining operations, such as turning, milling, drilling, and broaching, as well as a new chapter on sustainable machining processes. In addition, the book provides a comprehensive description of metal cutting theory and experimental and modeling techniques, along with basic machining processes and their effective use in a wide range of manufacturing applications. The research covered here has contributed to a more generalized vision of machining technology, including not only traditional manufacturing tasks, but also potential (emerging) new applications, such as micro and nanotechnology. Includes new case studies illuminate experimental methods and outputs from different sectors of the manufacturing industry Presents metal cutting processes that would be applicable for various technical, engineering, and scientific levels Includes an updated knowledge of standards, cutting tool materials and tools, new machining technologies, relevant machinability records, optimization techniques, and surface integrity
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.