Machining and forming technologies. Vol. 1 /
Clasificación: | Libro Electrónico |
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Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
New York :
Nova Science,
©2011.
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Colección: | Machining and forming technologies.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- MACHINING AND FORMING TECHNOLOGIES VOLUME 1; MACHINING AND FORMING TECHNOLOGIES VOLUME 1; CONTENTS; PREFACE; EXPERIMENTAL STUDY OF MACHINING SYSTEM: DYNAMIC CHARACTERIZATION; ABSTRACT; 1. INTRODUCTION; 2. TASKS FOR PERFORMING THE FREQUENCY ANALYSIS; 2.1. Technical Determination of the Frequency Spectrum; 2.2. Digitisation of the Measured Signals; 3. EXPERIMENTAL VIBRATION ANALYSIS; 3.1 Experimental Device; 3.2. BLOCK WORK PIECE: BW; 3.4. Experimental Results; 3.5. Numerical Model of the Assembly of the Lathe Spindle Ernault HN400.
- 4. MACHINE TOOL DYNAMIC CHARACTERIZATION
- TURNING PROCESS RECOMMENDATIONS4.1. An Analysis According to Three Configurations; 4.2. About a Better Manage the Cutting Process; ACKNOWLEDGMENTS; REFERENCES; MICRO MACHINING OF ELECTRICALLY NON-CONDUCTIVEAL2O3 CERAMIC; ABSTRACT; INTRODUCTION; MICRO-ESM SETUP; EXPERIMENTATION; RESULTS AND DISCUSSION; DEVELOPMENT OF MATHEMATICAL MODELS; CONCLUSION; REFERENCES; EFFECT OF NON-ELECTRICAL AND GAP CONTROL PARAMETERS IN THE MICRO-EDM OF WC-CO; ABSTRACT; 1. INTRODUCTION; 2. EXPERIMENTAL DETAILS; 2.1 Machine Tool; 2.2 Workpiece, Electrode and Dielectric.
- 2.3 Experimental Procedure2.4 Equipments Used for Measurement and Analysis; 3. EFFECT OF NON-ELECTRICAL PARAMETERS; 3.1 Effect of Electrode Polarity; 3.2 Effect of Electrode Rotational Speed; 4. EFFECT OF GAP CONTROL PARAMETERS; 4.1 General Discussion: Algorithm of Gap Control Parameters; 4.2 Effect of Gap Control Parameters on Machining Stability; 4.3 Effect of 'Short' on Machining Characteristics; 4.4 Effect of 'Open' on Machining Characteristics; 4.5 Effect of 'EDM Speed' on Machining Characteristics; CONCLUSIONS; REFERENCES.
- OPTIMIZATION OF ELECTROCHEMICAL MACHINING PROCESS USING EVOLUTIONARY ALGORITHMSABSTRACT; 1. INTRODUCTION; 2. MODEL OF THE ECM PROCESS; 3. EVOLUTIONARY ALGORITHMS; 3.1 Genetic Algorithm; 3.2. Differential Evolution; 4. RESULTS AND DISCUSSION; 4.1 Genetic Algorithm; 4.2. Differential Evolution; 4.3. Comparative Study; REFERENCES; MANUFACTURING OF HERRINGBONE-GROOVED JOURNAL BEARING BY CHEMICAL MILLING; ABSTRACT; 1. INTRODUCTION; 2. EXPERIMENTAL; 2. 1 Masking of the Rotor; 2.2 Chemical Milling; 2.2.1 Etchant and the Etching Rate; 2.2.2 The Setup; 2.2.3 Etching Operation.
- 2.2.4. Results and Discussions3. ADVANTAGES OF THE PROPOSED METHOD OF MASKING; CONCLUSIONS; REFERENCES; MODELING OF THE EFFECT OF TOOL AND CUTTING PARAMETERS ON THE DYNAMIC BEHAVIOUR OF A THIN WALLED WORKPIECE IN PERIPHERAL MILLING PROCESS; ABSTRACT; INTRODUCTION; DYNAMIC CUTTING FORCE MODEL; THIN WALL WORKPIECE RESPONSE TO EXCITATIONS GENERATED BY CUTTING EFFORTS; Effect of Workpiece Material on Cutting Force and the Dynamic Behaviour of the Workpiece; Effect of the Tool Helix Angle; Effect of the Tool Diameter; Effect of the Tool Teeth Number's; Effect of the Cutting Speed.