Machining Principles for Shape Generation of Metals provides coverage of the fundamentals of machining technology and metal cutting before thoroughly explaining the Laplace transformation and how it can be applied to understand complex machining processes. The book provides an overview of all machining processes with an emphasis on machining with geometrically determinate cutting to produce superior components. Vibration control, turning, dynamics, thermal deformation, and numerical control principles of metal cutting are each discussed, as are the principles of cutting removal, forced vibration, and the physical properties of work and tool materials. Provides solutions to commonly encountered problems when shaping metalsEmphasizes application of the Laplace transformation and closed loop diagramCovers creation principles for planes, pseudo-cylinders, and pseudo-circular holes INDICE: 1. Virtual Principles of Geometry and Generation Principles of Physics2. Creation Principle of Pseudo Flat Planes3. Creation Principle of Objects with Pseudo-Constant Diameter4. Creation Principle of Pseudo-cylinder5. Creation Principle of a Pseudo-circular hole6. Principle of Generating a Pseudo-Involute Profile7. Principle of Physical Properties of Work Material8. Principle of Physical Properties of Tool Materials9. Motion of Processing Machines and Principle of Surface Creation10. Cutting Removal Principle11. Uncut Part of a Set Depth of Cut12. Principle of Forced Vibration13. Stick-slip Phenomenon of Slideway14. Principle of Self-Excited (Chatter) Vibration15. Thermal Deformation Principle of Machining Systems16. Numerical Control Principles of Metal Cutting Machines17. Machining System Configuration Principle (Cell to FMS)18. Science, Technology, and Engineering Related to Manufacturing
- ISBN: 978-0-443-23538-2
- Editorial: Elsevier
- Encuadernacion: Rústica
- Páginas: 500
- Fecha Publicación: 01/08/2024
- Nº Volúmenes: 1
- Idioma: Inglés