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Advanced machining processes of metallic materials : theory, modelling, and applications / / Wit Grzesik, Professor of Mechanical Engineering, Faculty of Mechanical Engineering, Opole University of Technology, Poland
| Advanced machining processes of metallic materials : theory, modelling, and applications / / Wit Grzesik, Professor of Mechanical Engineering, Faculty of Mechanical Engineering, Opole University of Technology, Poland |
| Autore | Grzesik Wit |
| Edizione | [Second edition.] |
| Pubbl/distr/stampa | Amsterdam : , : Elsevier, , [2017] |
| Descrizione fisica | 1 online resource (610 pages) : illustrations |
| Disciplina | 671.35 |
| Soggetto topico |
Metal-cutting
Metal-cutting tools Metal-cutting - Data processing |
| ISBN | 0-444-63720-6 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910583352203321 |
Grzesik Wit
|
||
| Amsterdam : , : Elsevier, , [2017] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced machining processes of metallic materials [[electronic resource] ] : theory, modelling and applications / / Wit Grzesik
| Advanced machining processes of metallic materials [[electronic resource] ] : theory, modelling and applications / / Wit Grzesik |
| Autore | Grzesik Wit |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier, 2008 |
| Descrizione fisica | 1 online resource (489 p.) |
| Disciplina | 671.35 |
| Soggetto topico |
Metal-cutting
Metal-cutting tools Metal-cutting - Data processing |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-281-17209-X
9786611172091 0-08-055749-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Advanced Machining Processes of Metallic Materials; Copyright Page; Table of Contents; Preface; Nomenclature; Chapter 1. Introduction; References; Chapter 2. Metal Cutting Operations and Terminology; 2.1 Classification of Machining Processes; 2.2 Kinematics of Cutting Process and Cutting Parameters; 2.3 Geometry of Cutting Tools; References; Chapter 3. Trends in Metal Cutting Theory and Practice; 3.1 Evolution of Manufacturing Methods and Systems; 3.2 Driven Factors in Modern Machining Technology; 3.3 The Future of Manufacturing; References; Chapter 4. Cutting Tool Materials
4.1 Classification and Properties of Cutting Tool Materials4.2 High Speed Steels and Cast-Cobalt Alloys; 4.3 Sintered Tungsten Carbides; 4.4 Ceramics; 4.5 Superhard Materials; 4.6 Cutting Tool Coatings; 4.7 Rules for Applications of Cutting Tool Coatings; References; Chapter 5. Modelling and Simulation of Machining Processes and Operations; 5.1 The Role of Modelling in Modern Production Systems; 5.2 Classification of Models for Machining Processes; 5.3 Modelling Techniques for Machining Processes; 5.4 Data Needed for Modelling of Machining Processes; References Chapter 6. Orthogonal and Oblique Cutting Mechanics6.1 Geometrical and Kinematical Characterization; 6.2 Forces in the Cutting Zone; 6.3 Cutting Energy; 6.4 Stresses on the Shear Plane; 6.5 Plastic Deformation in the Cutting Zone; References; Chapter 7. Chip Formation and Control; 7.1 Chip Classification; 7.2 Chip Formation Mechanisms; 7.3 Modelling of Chip Formation; 7.4 Chip Flow; 7.5 Chip Breaking; References; Chapter 8. Cutting Vibrations; 8.1 Classification of Cutting Vibrations and their Sources; 8.2 Forced Vibrations in Milling Operations 8.3 Mechanisms of Self-excitation in Metal Cutting8.4 Stability of Chatter; 8.5 Methods for Improving Machine Tool Stability; References; Chapter 9. Heat in Metal Cutting; 9.1 Heat Sources in Metal Cutting and Cutting Temperature; 9.2 Heat Flow and Distribution in the Cutting Zone; 9.3 Prediction and Modelling of Temperatures in the Cutting Zone; 9.3.1 Calculation of temperature rise due to plastic deformation in the PDZ; 9.3.2 Calculation of average and maximum interface temperatures; 9.3.3 FEM and FDA prediction of cutting temperature; 9.4 Measurements of Temperatures in the Cutting Zone ReferencesChapter 10. Cutting Fluids; 10.1 Basic Categories of Cutting Fluids; 10.2 Functions and Action of Cutting Fluids; 10.3 Application of Cutting Fluids and Other Cooling/Lubrication Media; 10.4 Maintenance and Disposal of Cutting Fluids; References; Chapter 11. Tribology of Metal Cutting; 11.1 Tribological Characterization of the Cutting Zone; 11.2 Distribution of Stresses in the Tool/Chip Interface; 11.3 Characterization of Friction at the Tool/Chip Interface; 11.4 Measurements and Predictions of Contact Stresses and Friction; References; Chapter 12. Tool Wear and Damage 12.1 Types of Tool Wear |
| Record Nr. | UNINA-9910458131403321 |
|
Grzesik Wit
|
||
| Amsterdam ; ; Boston, : Elsevier, 2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced machining processes of metallic materials [[electronic resource] ] : theory, modelling and applications / / Wit Grzesik
| Advanced machining processes of metallic materials [[electronic resource] ] : theory, modelling and applications / / Wit Grzesik |
| Autore | Grzesik Wit |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier, 2008 |
| Descrizione fisica | 1 online resource (489 p.) |
| Disciplina | 671.35 |
| Soggetto topico |
Metal-cutting
Metal-cutting tools Metal-cutting - Data processing |
| ISBN |
1-281-17209-X
9786611172091 0-08-055749-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Advanced Machining Processes of Metallic Materials; Copyright Page; Table of Contents; Preface; Nomenclature; Chapter 1. Introduction; References; Chapter 2. Metal Cutting Operations and Terminology; 2.1 Classification of Machining Processes; 2.2 Kinematics of Cutting Process and Cutting Parameters; 2.3 Geometry of Cutting Tools; References; Chapter 3. Trends in Metal Cutting Theory and Practice; 3.1 Evolution of Manufacturing Methods and Systems; 3.2 Driven Factors in Modern Machining Technology; 3.3 The Future of Manufacturing; References; Chapter 4. Cutting Tool Materials
4.1 Classification and Properties of Cutting Tool Materials4.2 High Speed Steels and Cast-Cobalt Alloys; 4.3 Sintered Tungsten Carbides; 4.4 Ceramics; 4.5 Superhard Materials; 4.6 Cutting Tool Coatings; 4.7 Rules for Applications of Cutting Tool Coatings; References; Chapter 5. Modelling and Simulation of Machining Processes and Operations; 5.1 The Role of Modelling in Modern Production Systems; 5.2 Classification of Models for Machining Processes; 5.3 Modelling Techniques for Machining Processes; 5.4 Data Needed for Modelling of Machining Processes; References Chapter 6. Orthogonal and Oblique Cutting Mechanics6.1 Geometrical and Kinematical Characterization; 6.2 Forces in the Cutting Zone; 6.3 Cutting Energy; 6.4 Stresses on the Shear Plane; 6.5 Plastic Deformation in the Cutting Zone; References; Chapter 7. Chip Formation and Control; 7.1 Chip Classification; 7.2 Chip Formation Mechanisms; 7.3 Modelling of Chip Formation; 7.4 Chip Flow; 7.5 Chip Breaking; References; Chapter 8. Cutting Vibrations; 8.1 Classification of Cutting Vibrations and their Sources; 8.2 Forced Vibrations in Milling Operations 8.3 Mechanisms of Self-excitation in Metal Cutting8.4 Stability of Chatter; 8.5 Methods for Improving Machine Tool Stability; References; Chapter 9. Heat in Metal Cutting; 9.1 Heat Sources in Metal Cutting and Cutting Temperature; 9.2 Heat Flow and Distribution in the Cutting Zone; 9.3 Prediction and Modelling of Temperatures in the Cutting Zone; 9.3.1 Calculation of temperature rise due to plastic deformation in the PDZ; 9.3.2 Calculation of average and maximum interface temperatures; 9.3.3 FEM and FDA prediction of cutting temperature; 9.4 Measurements of Temperatures in the Cutting Zone ReferencesChapter 10. Cutting Fluids; 10.1 Basic Categories of Cutting Fluids; 10.2 Functions and Action of Cutting Fluids; 10.3 Application of Cutting Fluids and Other Cooling/Lubrication Media; 10.4 Maintenance and Disposal of Cutting Fluids; References; Chapter 11. Tribology of Metal Cutting; 11.1 Tribological Characterization of the Cutting Zone; 11.2 Distribution of Stresses in the Tool/Chip Interface; 11.3 Characterization of Friction at the Tool/Chip Interface; 11.4 Measurements and Predictions of Contact Stresses and Friction; References; Chapter 12. Tool Wear and Damage 12.1 Types of Tool Wear |
| Record Nr. | UNINA-9910784884003321 |
|
Grzesik Wit
|
||
| Amsterdam ; ; Boston, : Elsevier, 2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced machining processes of metallic materials : theory, modelling and applications / / Wit Grzesik
| Advanced machining processes of metallic materials : theory, modelling and applications / / Wit Grzesik |
| Autore | Grzesik Wit |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier, 2008 |
| Descrizione fisica | 1 online resource (489 p.) |
| Disciplina | 671.35 |
| Soggetto topico |
Metal-cutting
Metal-cutting tools Metal-cutting - Data processing |
| ISBN |
1-281-17209-X
9786611172091 0-08-055749-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Advanced Machining Processes of Metallic Materials; Copyright Page; Table of Contents; Preface; Nomenclature; Chapter 1. Introduction; References; Chapter 2. Metal Cutting Operations and Terminology; 2.1 Classification of Machining Processes; 2.2 Kinematics of Cutting Process and Cutting Parameters; 2.3 Geometry of Cutting Tools; References; Chapter 3. Trends in Metal Cutting Theory and Practice; 3.1 Evolution of Manufacturing Methods and Systems; 3.2 Driven Factors in Modern Machining Technology; 3.3 The Future of Manufacturing; References; Chapter 4. Cutting Tool Materials
4.1 Classification and Properties of Cutting Tool Materials4.2 High Speed Steels and Cast-Cobalt Alloys; 4.3 Sintered Tungsten Carbides; 4.4 Ceramics; 4.5 Superhard Materials; 4.6 Cutting Tool Coatings; 4.7 Rules for Applications of Cutting Tool Coatings; References; Chapter 5. Modelling and Simulation of Machining Processes and Operations; 5.1 The Role of Modelling in Modern Production Systems; 5.2 Classification of Models for Machining Processes; 5.3 Modelling Techniques for Machining Processes; 5.4 Data Needed for Modelling of Machining Processes; References Chapter 6. Orthogonal and Oblique Cutting Mechanics6.1 Geometrical and Kinematical Characterization; 6.2 Forces in the Cutting Zone; 6.3 Cutting Energy; 6.4 Stresses on the Shear Plane; 6.5 Plastic Deformation in the Cutting Zone; References; Chapter 7. Chip Formation and Control; 7.1 Chip Classification; 7.2 Chip Formation Mechanisms; 7.3 Modelling of Chip Formation; 7.4 Chip Flow; 7.5 Chip Breaking; References; Chapter 8. Cutting Vibrations; 8.1 Classification of Cutting Vibrations and their Sources; 8.2 Forced Vibrations in Milling Operations 8.3 Mechanisms of Self-excitation in Metal Cutting8.4 Stability of Chatter; 8.5 Methods for Improving Machine Tool Stability; References; Chapter 9. Heat in Metal Cutting; 9.1 Heat Sources in Metal Cutting and Cutting Temperature; 9.2 Heat Flow and Distribution in the Cutting Zone; 9.3 Prediction and Modelling of Temperatures in the Cutting Zone; 9.3.1 Calculation of temperature rise due to plastic deformation in the PDZ; 9.3.2 Calculation of average and maximum interface temperatures; 9.3.3 FEM and FDA prediction of cutting temperature; 9.4 Measurements of Temperatures in the Cutting Zone ReferencesChapter 10. Cutting Fluids; 10.1 Basic Categories of Cutting Fluids; 10.2 Functions and Action of Cutting Fluids; 10.3 Application of Cutting Fluids and Other Cooling/Lubrication Media; 10.4 Maintenance and Disposal of Cutting Fluids; References; Chapter 11. Tribology of Metal Cutting; 11.1 Tribological Characterization of the Cutting Zone; 11.2 Distribution of Stresses in the Tool/Chip Interface; 11.3 Characterization of Friction at the Tool/Chip Interface; 11.4 Measurements and Predictions of Contact Stresses and Friction; References; Chapter 12. Tool Wear and Damage 12.1 Types of Tool Wear |
| Record Nr. | UNINA-9910820972703321 |
|
Grzesik Wit
|
||
| Amsterdam ; ; Boston, : Elsevier, 2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Hybrid manufacturing processes : physical fundamentals, modelling and rational applications / / Wit Grzesik, Adam Ruszaj
| Hybrid manufacturing processes : physical fundamentals, modelling and rational applications / / Wit Grzesik, Adam Ruszaj |
| Autore | Grzesik Wit |
| Pubbl/distr/stampa | Cham, Switzerland : , : Springer, , [2021] |
| Descrizione fisica | 1 online resource (247 pages) |
| Disciplina | 670 |
| Collana | Springer Series in Advanced Manufacturing |
| Soggetto topico | Manufacturing processes |
| ISBN | 3-030-77107-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Intro -- Preface -- Contents -- Symbols and Abbreviations -- Latin Symbols -- Greek Symbols -- Abbreviations -- 1 General Characteristics of Material Shaping Processes -- 1.1 Classification of Material Removal Processes -- 1.2 Classification of Additive Processes -- References -- 2 Classification of Hybrid Machining Processes Generating by Different Rules -- 2.1 Classification Criteria and Systems -- 2.2 Generation of Hybrid Conventional and Unconventional Processes -- 2.3 Survey of Hybrid Machining Processes -- 2.3.1 Hybrid Assisted Processes -- 2.3.2 Hybrid Combined Processes -- References -- 3 Application of Hybrid Machining Processes in Industry -- 3.1 Role of Hybrid Machining Processes in Sustainable Manufacturing and Production 4.0 Strategy -- 3.2 Application Areas of Hybrid Machining Processes in Various Industry Sectors -- 3.3 Applications of Hybrid Micro and Nano-Machining Processes -- 3.4 Future Vision of Hybrid Manufacturing Processes -- References -- 4 Physical Fundamentals of Conventional and Unconventional Machining Processes -- 4.1 Physical Phenomena in the Zone of Machining Processes -- 4.1.1 Cutting Processes -- 4.1.2 Abrasive Processes -- 4.1.3 Electrodischarge Machining (EDM) -- 4.1.4 Electrochemical Machining (ECM) -- 4.1.5 Water Jet and Abrasive Water Jet Machining Processes -- 4.1.6 Laser Beam Machining Process -- 4.1.7 Ion Beam and Electron Beam Machining Processes -- 4.2 Characterization of Mechanical Influence on the Workpiece Material -- 4.3 Characterization of Thermal Influence on the Workpiece Material -- 4.4 Constitution of Subsurface Layer of the Workpiece Material -- 4.5 Possibilities of Controlling Surface Layer Properties by Means of Hybrid Processes -- References -- 5 Modelling of Hybrid Machining Processes -- 5.1 Models of Conventional and Unconventional Machining Processes.
5.1.1 Models of Cutting and Abrasive Processes -- 5.1.2 Models of EDM Process -- 5.1.3 Models of ECM Process -- 5.1.4 Models of LBM Process -- 5.1.5 Models of WJM Process -- 5.2 Constitutive Materials Models -- 5.3 Techniques of Determination of Material Properties Under Complex Physical Interactions -- 5.4 Modelling Techniques -- 5.4.1 Analytical Models -- 5.4.2 Numerical Modelling -- 5.4.3 Modelling Using AI Techniques -- References -- 6 Vibration-Assisted Machining Processes -- 6.1 Classification of Vibration-Assisted Machining Processes -- 6.2 Vibration-Assisted Cutting Processes -- 6.2.1 Physical and Technological Effects -- 6.2.2 Processes with the Assistance of Low Frequency Vibration (VAM) -- 6.2.3 Processes with the Assistance of Ultrasonic Vibrations (UAM)-Turning, Drilling and Milling -- 6.3 Vibration-Assisted Grinding and Polishing Processes -- 6.4 Vibration-Assisted EDM Processes -- 6.5 Vibration-Assisted ECM Processes -- 6.6 Industrial Applications of Vibration-Assisted Machining Processes -- References -- 7 Media-Assisted Machining Processes -- 7.1 Classification of Media-Assisted Machining Processes (MAM) -- 7.2 Physical, Tribological and Technological Effects -- 7.3 Fluid Media-Assisted Machining Processes -- 7.3.1 Fluid Media-Assisted Cutting Processes -- 7.3.2 Fluid Media-Assisted EDM Process -- 7.4 Cryogenic Subtractive Processes -- 7.4.1 Introduction -- 7.4.2 Machining Processes with Cooled CO2 -- 7.4.3 Cryogenic Machining Processes with Liquid Nitrogen (LN2) -- 7.5 Industrial Applications of Liquid and Gaseous-Assisted Machining Processes -- References -- 8 Magnetic and Electric Field-Assisted Machining Processes -- 8.1 Introduction -- 8.2 Magnetic Field-Assisted Finishing Processes -- 8.3 Magnetic Field-Assisted Electrodischarge Processes -- 8.4 Magnetic Field-Assisted Electrochemical Processes. 8.5 Electric Field-Assisted Processes -- References -- 9 Thermally-Assisted Machining Processes -- 9.1 Classification of Thermally-Assisted Machining Processes -- 9.2 Physical and Technological Effects -- 9.3 Laser-Assisted Machining (LAM) -- 9.3.1 Laser-Assisted Cutting Processes -- 9.3.2 Laser-Assisted Grinding Processes -- 9.3.3 Laser-Assisted WJM Process -- 9.3.4 Laser-Assisted EDM Processes -- 9.3.5 Laser-Assisted ECM Processes -- 9.4 Plasma-Assisted Machining (PAM) Processes -- 9.5 Industrial Applications of Thermally-Assisted Machining Processes -- References -- 10 Mixed Hybrid Processes -- 10.1 Classification of Hybrid Machining Methods -- 10.2 Combination of Subtractive Conventional Processes -- 10.2.1 Turn-Milling Process -- 10.2.2 Turn-Broaching Process -- 10.3 Combination of Subtractive Conventional and Non-conventional Processes -- 10.3.1 Electro-Discharge Grinding (EDG) -- 10.3.2 Electrochemical Grinding (ECG) and Finishing -- 10.3.3 Electrochemical Finishing -- 10.4 Combination of Subtractive Non-conventional Processes -- References -- 11 Hybrid Processes with Controlled Mechanisms -- 11.1 Classification of Hybrid Machining Methods -- 11.2 Synergetic Physical and Technological Effects -- 11.3 Grind Hardening and Strengthening -- 11.4 Combination of Rolling and Cryogenic Hardening -- 11.5 Combination of Subtractive and Transformative Processes (Sequential Cutting and Burnishing Processes) -- 11.6 Industrial Applications of Machining Processes with Controlled Mechanisms -- References -- 12 Hybrid Additive and Subtractive Processes -- 12.1 Applications of Different Additive Technologies and Subtractive Processes -- 12.1.1 Introduction -- 12.1.2 Layer Deposition Techniques in Additive Processes -- 12.2 Special Multi-axis Manufacturing Platforms for Hybrid Additive-Subtractive Processes. 12.2.1 Constructions of Integrated Modular Manufacturing Platforms -- 12.2.2 Programming of Multi-axis Hybrid Machining Processes -- 12.3 Repair and Renovation Technologies -- 12.4 Development Trends in Hybrid Additive-Subtractive Processes -- References -- 13 Economics and Optimization Strategies of Hybrid Processes -- 13.1 Optimization Criteria and Models -- 13.2 Optimization Criteria and Algorithms for the Selection of Machining Conditions -- 13.3 Optimization Fundamentals -- References -- 14 Influence of Process Hybridization on Surface Integrity -- 14.1 Structural Models of Subsurface Layer -- 14.2 Characteristics of Surface Roughness in Different Hybrid Machining Processes -- 14.3 Physical Properties of Subsurface Layer -- 14.3.1 Characteristics of Physical Properties of Subsurface Layer -- 14.3.2 Residual Stresses in Subsurface Layer -- 14.3.3 Strain-Hardening Effect in the Subsurface Layer -- 14.3.4 Changes of Material Microstructure and Surficial Defects -- References. |
| Record Nr. | UNINA-9910488727003321 |
|
Grzesik Wit
|
||
| Cham, Switzerland : , : Springer, , [2021] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||