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Tools for metal cutting have many shapes and features, each of which is described by its angles or geometries. The selection of the right cutting tool geometry is critical because it directly affects the integrity of the machined surface, tool life, power needed for machining, and thus the overall machining efficiency. Geometry of Single-Point Turning Tools and Drills outlines clear objectives of cutting tool geometry selection and optimization, using multiple examples to provide a thorough explanation. The establishment of clear bridges between cutting theory, tool geometry, and shop practice, reveals individual and combined influences of the parameters of cutting tool geometry on cutting tool performance and on the outcomes of a machining operation. The three basic systems of considerations of tool geometry – namely, tool-in-hand, tool-in-machine (holder) and tool-in-use – are covered, and the transformations between these systems are established. Geometry of Single-Point Turning Tools and Drills addresses several urgent problems that many present-day tool manufacturers, tool application specialists, and tool users, are facing. It is both a practical guide, offering useful, practical suggestions for the solution of common problems, and a useful reference on the most important aspects of cutting tool design, application, and troubleshooting practices. Covering emerging trends in cutting tool design, cutting tool geometry, machining regimes, and optimization of machining operations, Geometry of Single-Point Turning Tools and Drills is an indispensable source of information for tool designers, manufacturing engineers, research workers, and students. The Springer Series in Advanced Manufacturing publishes the best teaching and reference material to support students, educators and practitioners in manufacturing technology and management. This international series includes advanced textbooks, research monographs, edited works and conference proceedings covering all subjects in advanced manufacturing. The series focuses on new topics of interest, new treatments of more traditional areas and coverage of the applications of information and communication technology (ICT) in manufacturing.

Machine-tools -- Design and construction. --- Metal-cutting tools -- Design and construction. --- Metal-cutting tools -- Mathematics. --- Metal-cutting tools --- Mechanical Engineering --- Engineering & Applied Sciences --- Mechanical Engineering - General --- Design and construction --- Mathematics --- Design and construction. --- Mathematics. --- Engineering. --- Machinery. --- Manufacturing industries. --- Machines. --- Tools. --- Industrial engineering. --- Manufacturing, Machines, Tools. --- Machinery and Machine Elements. --- Operating Procedures, Materials Treatment. --- Management engineering --- Simplification in industry --- Engineering --- Value analysis (Cost control) --- Hand tools --- Handtools --- Hardware --- Implements, utensils, etc. --- Machinery --- Machines --- Manufactures --- Power (Mechanics) --- Technology --- Mechanical engineering --- Motors --- Power transmission --- Industries --- Construction --- Industrial arts --- Curious devices --- Cutting machines --- Machine-tools --- Manufactures. --- Manufacturing, Machines, Tools, Processes. --- Manufactured goods --- Manufactured products --- Products --- Products, Manufactured --- Commercial products --- Manufacturing industries

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Tools for metal cutting have many shapes and features, each of which is described by its angles or geometries. The selection of the right cutting tool geometry is critical because it directly affects the integrity of the machined surface, tool life, power needed for machining, and thus the overall machining efficiency. Geometry of Single-Point Turning Tools and Drills outlines clear objectives of cutting tool geometry selection and optimization, using multiple examples to provide a thorough explanation. The establishment of clear bridges between cutting theory, tool geometry, and shop practice, reveals individual and combined influences of the parameters of cutting tool geometry on cutting tool performance and on the outcomes of a machining operation. The three basic systems of considerations of tool geometry - namely, tool-in-hand, tool-in-machine (holder) and tool-in-use - are covered, and the transformations between these systems are established. Geometry of Single-Point Turning Tools and Drills addresses several urgent problems that many present-day tool manufacturers, tool application specialists, and tool users, are facing. It is both a practical guide, offering useful, practical suggestions for the solution of common problems, and a useful reference on the most important aspects of cutting tool design, application, and troubleshooting practices. Covering emerging trends in cutting tool design, cutting tool geometry, machining regimes, and optimization of machining operations, Geometry of Single-Point Turning Tools and Drills is an indispensable source of information for tool designers, manufacturing engineers, research workers, and students. The Springer Series in Advanced Manufacturing publishes the best teaching and reference material to support students, educators and practitioners in manufacturing technology and management. This international series includes advanced textbooks, research monographs, edited works and conference proceedings covering all subjects in advanced manufacturing. The series focuses on new topics of interest, new treatments of more traditional areas and coverage of the applications of information and communication technology (ICT) in manufacturing.

Machine elements --- Applied physical engineering --- Plant and equipment --- Production management --- fabrieken --- productie --- machines

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Metal-cutting

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Metal working fluids (MWFs) provide important functions such as lubrication and cooling in the machining of metals. This book reviews the issues surrounding the use of fluids for cutting and grinding throughout the metal working process, from selection and testing to disposal. The book opens with chapters considering the mechanism and action, selection and delivery of MWFs to the machining zone before moving onto discuss the many issues surrounding MWFs during machining such as selection of the proper MWF, environmental concerns, supply methods, circulation and monitoring. The final chapters discuss the maintenance, replacement and disposal of MWFs. With its distinguished editors and international team of expert contributors, Metalworking fluids (MWFs) for cutting and grinding is an invaluable reference tool for engineers and organizations using metal cutting/machining in the manufacturing process as well as machine designers/manufacturers and machining fluid/chemical suppliers. Chapters consider the mechanism and action, selection and delivery of MWFs to the machining zoneEnvironmental concerns, supply methods, circulation and monitoring are also discussedWritten by distinguished editors and international team of expert contributors.

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Engineering sciences. Technology